Use of neonicotinoids in pest control

ABSTRACT

There is now described a method of controlling pests with nitroimino- or nitroguanidino-compounds; more specifically a method of controlling pests in and on transgenic crops of useful plants, such as, for example, in crops of maize, cereals, soya beans, tomatoes, cotton, potatoes, rice and mustard, with a nitroimino- or nitroguanidino-compound, especially with thiamethoxam, characterized in that a pesticidal composition comprising a nitroimino- or nitroguanidino-compound in free form or in agrochemically useful salt form and at least one auxiliary is applied to the pests or their environment, in particular to the crop plant itself.

This application is a divisional application of U.S. patent application Ser. No. 10/125,136, filed Apr. 18, 2002 now U.S. Pat. No. 6,844,339, which is a continuation of U.S. patent application Ser. No. 09/600,384, filed Sep. 21, 2000 (now abandoned), the contents of which are incorporated herein by reference.

The present invention relates to a method of controlling pests with a nitroimino- or nitroguanidino-compound, especially thiamethoxam; more specifically to a novel method of controlling pests in and on transgenic crops of useful plants with a nitroimino- or nitroguanidino-compound.

Certain pest control methods are proposed in the literature. However, these methods are not fully satisfactory in the field of pest control, which is why there is a demand for providing further methods for controlling and combating pests, in particular insects and representatives of the order Acarina, or for protecting plants, especially crop plants. This object is achieved according to the invention by providing the present method.

The present invention therefore relates to a method of controlling pests in crops of transgenic useful plants, such as, for example, in crops of maize, cereals, soya beans, tomatoes, cotton, potatoes, rice and mustard, characterized in that a pesticidal composition comprising a nitroimino- or nitroguanidino-compound, especially thiamethoxam, imidacloprid, Ti-435 or thiacloprid in free form or in agrochemically useful salt form and at least one auxiliary is applied to the pests or their environment, in particular to the crop plant itself; to the use of the composition in question and to propagation material of transgenic plants which has been treated with it.

Surprisingly, it has now emerged that the use of a nitroimino- or nitroguanidino-compound compound for controlling pests on transgenic useful plants which contain—for instance—one or more genes expressing a pesticidally, particularly insecticidally, acaricidally, nematocidally or fugicidally active ingredient, or which are tolerant against herbicides or resistent against the attack of fungi, has a synergistic effect. It is highly surprising that the use of a nitroimino- or nitroguanidino-compound in combination with a transgenic plant exceeds the additive effect, to be expected in principle, on the pests to be controlled and thus extends the range of action of the nitroimino- or nitroguanidino-compound and of the active principle expressed by the transgenic plant in particular in two respects:

In particular, it has been found, surprisingly, that within the scope of invention the pesticidal activity of a nitroimino- or nitroguanidino-compound in combination with the effect expressed by the transgenic useful plant, is not only additive in comparison with the pesticidal activities of the nitroimino- or nitroguanidino-compound alone and of the transgenic crop plant alone, as can generally be expected, but that a synergistic effect is present. The term “synergistic”, however, is in no way to be understood in this connection as being restricted to the pesticidal activity, but the term also refers to other advantageous properties of the method according to the invention compared with the nitroimino- or nitroguanidino-compound and the transgenic useful plant alone. Examples of such advantageous properties which may be mentioned are: extension of the pesticidal spectrum of action to other pests, for example to resistant strains; reduction in the application rate of the nitroimino- or nitroguanidino-compound, or sufficient control of the pests with the aid of the compositions according to the invention even at an application rate of the nitroimino- or nitroguanidino-compound alone and the transgenic useful plant alone are entirely ineffective; enhanced crop safety; improved quality of produce such as higher content of nutrient or oil, better fiber quality, enhanced shelf life, reduced content of toxic products such as mycotoxins, reduced content of residues or unfavorable constituents of any kind or better digestability; improved tolerance to unfavorable temperatures, draughts or salt content of water; enhanced assimilation rates such as nutrient uptake, water uptake and photosynthesis; favorable crop properties such as altered leaf aerea, reduced vegetative growth, increased yields, favorable seed shape/seed thickness or germination properties, altered colonialisation by saprophytes or epiphytes, reduction of senescense, improved phytoalexin production, improved of accelerated ripening, flower set increase, reduced boll fall and shattering, better attraction to beneficials and predators, increased pollination, reduced attraction to birds; or other advantages known to those skilled in the art.

Nitroimino- and nitroguanidino-cpmpounds, such as thiamethoxam (5-(2-Chlorthiazol-5-ylmethyl)-3-methyl-4-nitroimino-perhydro-1,3,5-oxadiazin), are known from EP-A-0′580′553. Within the scope of invention thiamethoxam is preferred.

Also preferred within the scope of invention is imidacloprid of the formula

known from The Pesticide Manual, 10^(th) Ed. (1991), The British Crop Protection Council, London, page 591; also preferred is Thiacloprid of the formula

known from EP-A-235'725; also preferred is the compound of the formula

known as Ti-435 (clothianidin) from EP-A-376'279

The agrochemically compatible salts of the nitroimino- or nitroguanidino-compounds are, for example, acid addition salts of inorganic and organic acids, in particular of hydrochloric acid, hydrobromic acid, sulfuric acid, nitric acid, perchloric acid, phosphoric acid, formic acid, acetic acid, trifluoroacetic acid, oxalic acid, malonic acid, toluenesulfonic acid or benzoic acid. Preferred within the scope of the present invention is a composition known per se which comprises, as active ingredient, thiamethoxam and imidacloprid, each in the free form, especially thiamethoxam.

The transgenic plants used according to the invention are plants, or propagation material thereof, which are transformed by means of recombinant DNA technology in such a way that they are—for instance—capable of synthesizing selectively acting toxins as are known, for example, from toxin-producing in vertebrates, especially of the phylum Arthropoda, as can be obtained from Bacillus thuringiensis strains; or as are known from plants, such as lectins; or in the alternative capable of expressing a herbicidal or fungicidal resistance. Examples of such toxins, or transgenic plants which are capable of synthesizing such toxins, have been disclosed, for example, in EP-A-0 374 753, WO 93/07278, WO 95/34656, EP-A-0 427 529 and EP-A-451 878 and are incorporated by reference in the present application.

The methods for generating such transgenic plants are widely known to those skilled in the art and described, for example, in the publications mentioned above.

The toxins which can be expressed by such transgenic plants include, for example, toxins, such as proteins which have insecticidal properties and which are expressed by transgenic plants, for example Bacillus cereus proteins or Bacillus popliae proteins; or Bacillus thuringiensis endotoxins (B.t.), such as CryIA(a), CryIA(b), CryIA(c), CryIIA, CryIIIA, CryIIIB2 or CytA; VIP1; VIP2; VIP3; or insecticidal proteins of bacteria colonising nematodes like Photorhabdus spp or Xenorhabdus spp such as Photorhabdus luminescens, Xenorhabdus nematophilus etc.; proteinase inhibitors, such as trypsin inhibitors, serine protease inhibitors, patatin, cystatin, papain inhibitors; ribosome-inactivating proteins (RIP), such as ricin, maize RIP, abrin, luffin, saporin or bryodin; plant lectins such as pea lectins, barley lectins or snowdrop lectins; or agglutinins; toxins produced by animals, such as scorpion toxins, spider venoms, wasp venoms and other insect-specific neurotoxins; steroid metabolism enzymes, such as 3-hydroxysteroid oxidase, ecdysteroid UDP-glycosyl transferase, cholesterol oxidases, ecdysone inhibitors, HMG-COAreductase, ion channel blockers such as sodium and calcium, juvenile hormone esterase, diuretic hormone receptors, stilbene synthase, bibenzyl synthase, chitinases and glucanases.

Examples of known transgenic plants which comprise one or more genes which encode insecticidal resistance and express one or more toxins are the following: KnockOut® (maize), YieldGard® (maize); NuCOTN 33B® (cotton), Boligard® (cotton), NewLeaf® (potatoes), NatureGard® and Protecta®.

The following tables comprise further examples of targets and principles and crop phenotypes of transgenic crops which show tolerance against pests mainly insects, mites, nematodes, virus, bacteria and diseases or are tolerant to specific herbicides or classes of herbicides.

TABLE A1 Crop: Maize Effected target or expressed principle(s) Crop phenotype/Tolerance to Acetolactate synthase (ALS) Sulfonylureas, Imidazolinones, Triazolopyrimidines, Pyrimidyloxybenzoates, Phtalides AcetylCoA Carboxylase (ACCase) Aryloxyphenoxyalkanecarboxylic acids, cyclohexanediones Hydroxyphenylpyruvate dioxygenase Isoxazoles such as Isoxaflutol or (HPPD) Isoxachlortol, Triones such as mesotrione or sulcotrione Phosphinothricin acetyl transferase Phosphinothricin O-Methyl transferase altered lignin levels Glutamine synthetase Glufosinate, Bialaphos Adenylosuccinate Lyase (ADSL) Inhibitors of IMP and AMP synthesis Adenylosuccinate Synthase Inhibitors of adenylosuccinate synthesis Anthranilate Synthase Inhibitors of tryptophan synthesis and catabolism Nitrilase 3,5-dihalo-4-hydroxy-benzonitriles such as Bromoxynil and Ioxinyl 5-Enolpyruvyl-3phosphoshikimate Glyphosate or sulfosate Synthase (EPSPS) Glyphosate oxidoreductase Glyphosate or sulfosate Protoporphyrinogen oxidase (PROTOX) Diphenylethers, cyclic imides, phenylpyrazoles, pyridin derivatives, phenopylate, oxadiazoles etc. Cytochrome P450 eg. P450 SU1 Xenobiotics and herbicides such as Sulfonylureas Dimboa biosynthesis (Bx1 gene) Helminthosporium turcicum, Rhopalosiphum maydis, Diplodia maydis, Ostrinia nubilalis, lepidoptera sp. CMIII (small basic maize seed peptide plant pathogenes eg. fusarium, alternaria, sclerotina Corn-SAFP (zeamatin) plant pathogenes eg. fusarium, alternaria, sclerotina, rhizoctonia, chaetomium, phycomyces Hm1 gene Cochliobulus Chitinases plant pathogenes Glucanases plant pathogenes Coat proteins viruses such as maize dwarf mosaic virus, maize chlorotic dwarf virus Bacillus thuringiensis toxins, VIP 3, lepidoptera, coleoptera, diptera, Bacillus cereus toxins, Photorabdus and nematodes, eg. ostrinia nubilalis, Xenorhabdus toxins heliothis zea, armyworms eg. spodoptera frugiperda, corn rootworms, sesamia sp., black cutworm, asian corn borer, weevils 3-Hydroxysteroid oxidase lepidoptera, coleoptera, diptera, nematodes, eg. ostrinia nubilalis, heliothis zea, armyworms eg. spodoptera frugiperda, corn rootworms, sesamia sp., black cutworm, asian corn borer, weevils Peroxidase lepidoptera, coleoptera, diptera, nematodes, eg. ostrinia nubilalis, heliothis zea, armyworms eg. spodoptera frugiperda, corn rootworms, sesamia sp., black cutworm, asian corn borer, weevils Aminopeptidase inhibitors eg. Leucine lepidoptera, coleoptera, diptera, aminopeptidase inhibitor (LAPI) nematodes, eg. ostrinia nubilalis, heliothis zea, armyworms eg. spodoptera frugiperda, corn rootworms, sesamia sp., black cutworm, asian corn borer, weevils Limonene synthase corn rootworms Lectines lepidoptera, coleoptera, diptera, nematodes, eg. ostrinia nubilalis, heliothis zea, armyworms eg. spodoptera frugiperda, corn rootworms, sesamia sp., black cutworm, asian corn borer, weevils Protease Inhibitors eg. cystatin, patatin, weevils, corn rootworm virgiferin, CPTI ribosome inactivating protein lepidoptera, coleoptera, diptera, nematodes, eg. ostrinia nubilalis, heliothis zea, armyworms eg. spodoptera frugiperda, corn rootworms, sesamia sp., black cutworm, asian corn borer, weevils maize 5C9 polypeptide lepidoptera, coleoptera, diptera, nematodes, eg. ostrinia nubilalis, heliothis zea, armyworms eg. spodoptera frugiperda, corn rootworms, sesamia sp., black cutworm, asian corn borer, weevils HMG-CoA reductase lepidoptera, coleoptera, diptera, nematodes, eg. ostrinia nubilalis, heliothis zea, armyworms eg. spodoptera frugiperda, corn rootworms, sesamia sp., black cutworm, asian corn borer, weevils

TABLE A2 Crop Wheat Effected target or expressed principle(s) Crop phenotype/Tolerance to Acetolactate synthase (ALS) Sulfonylureas, Imidazolinones, Triazolopyrimidines, Pyrimidyloxybenzoates, Phtalides AcetylCoA Carboxylase (ACCase) Aryloxyphenoxyalkanecarboxylic acids, cyclohexanediones Hydroxyphenylpyruvate dioxygenase Isoxazoles such as Isoxaflutol or (HPPD) Isoxachlortol, Triones such as mesotrione or sulcotrione Phosphinothricin acetyl transferase Phosphinothricin O-Methyl transferase altered lignin levels Glutamine synthetase Glufosinate, Bialaphos Adenylosuccinate Lyase (ADSL) Inhibitors of IMP and AMP synthesis Adenylosuccinate Synthase Inhibitors of adenylosuccinate synthesis Anthranilate Synthase Inhibitors of tryptophan synthesis and catabolism Nitrilase 3,5-dihalo-4-hydroxy-benzonitriles such as Bromoxynil and Ioxinyl 5-Enolpyruvyl-3phosphoshikimate Glyphosate or sulfosate Synthase (EPSPS) Glyphosate oxidoreductase Glyphosate or sulfosate Protoporphyrinogen oxidase (PROTOX) Diphenylethers, cyclic imides, phenylpyrazoles, pyridin derivatives, phenopylate, oxadiazoles etc. Cytochrome P450 eg. P450 SU1 Xenobiotics and herbicides such as Sulfonylureas Antifungal polypeptide AlyAFP plant pathogenes eg septoria and fusarioum glucose oxidase plant pathogenes eg. fusarium, septoria pyrrolnitrin synthesis genes plant pathogenes eg. fusarium, septoria serine/threonine kinases plant pathogenes eg. fusarium, septoria and other diseases Hypersensitive response eliciting plant pathogenes eg. fusarium, septoria polypeptide and other diseases Systemic acquires resistance (SAR) viral, bacterial, fungal, nematodal genes pathogens Chitinases plant pathogenes Glucanases plant pathogenes double stranded ribonuclease viruses such as BYDV and MSMV Coat proteins viruses such as BYDV and MSMV Bacillus thuringiensis toxins, VIP 3, lepidoptera, coleoptera, diptera, Bacillus cereus toxins, Photorabdus and nematodes, Xenorhabdus toxins 3-Hydroxysteroid oxidase lepidoptera, coleoptera, diptera, nematodes, Peroxidase lepidoptera, coleoptera, diptera, nematodes, Aminopeptidase inhibitors eg. Leucine lepidoptera, coleoptera, diptera, aminopeptidase inhibitor nematodes, Lectines lepidoptera, coleoptera, diptera, nematodes, aphids Protease Inhibitors eg. cystatin, patatin, lepidoptera, coleoptera, diptera, virgiferin, CPTI nematodes, aphids ribosome inactivating protein lepidoptera, coleoptera, diptera, nematodes, aphids HMG-CoA reductase lepidoptera, coleoptera, diptera, nematodes, eg. ostrinia nubilalis, heliothis zea, armyworms eg. spodoptera frugiperda, corn rootworms, sesamia sp., black cutworm, asian corn borer, weevils

TABLE A3 Crop Barley Effected target or expressed principle(s) Crop phenotype/Tolerance to Acetolactate synthase (ALS) Sulfonylureas, Imidazolinones, Triazolopyrimidines, Pyrimidyloxybenzoates, Phtalides AcetylCoA Carboxylase (ACCase) Aryloxyphenoxyalkanecarboxylic acids, cyclohexanediones Hydroxyphenylpyruvate dioxygenase Isoxazoles such as Isoxaflutol or (HPPD) Isoxachlortol, Triones such as mesotrione or sulcotrione Phosphinothricin acetyl transferase Phosphinothricin O-Methyl transferase altered lignin levels Glutamine synthetase Glufosinate, Bialaphos Adenylosuccinate Lyase (ADSL) Inhibitors of IMP and AMP synthesis Adenylosuccinate Synthase Inhibitors of adenylosuccinate synthesis Anthranilate Synthase Inhibitors of tryptophan synthesis and catabolism Nitrilase 3,5-dihalo-4-hydroxy-benzonitriles such as Bromoxynil and Ioxinyl 5-Enolpyruvyl-3phosphoshikimate Glyphosate or sulfosate Synthase (EPSPS) Glyphosate oxidoreductase Glyphosate or sulfosate Protoporphyrinogen oxidase (PROTOX) Diphenylethers, cyclic imides, phenylpyrazoles, pyridin derivatives, phenopylate, oxadiazoles etc. Cytochrome P450 eg. P450 SU1 Xenobiotics and herbicides such as Sulfonylureas Antifungal polypeptide AlyAFP plant pathogenes eg septoria and fusarioum glucose oxidase plant pathogenes eg. fusarium, septoria pyrrolnitrin synthesis genes plant pathogenes eg. fusarium, septoria serine/threonine kinases plant pathogenes eg. fusarium, septoria and other diseases Hypersensitive response eliciting plant pathogenes eg. fusarium, septoria polypeptide and other diseases Systemic acquires resistance (SAR) viral, bacterial, fungal, nematodal genes pathogens Chitinases plant pathogenes Glucanases plant pathogenes double stranded ribonuclease viruses such as BYDV and MSMV Coat proteins viruses such as BYDV and MSMV Bacillus thuringiensis toxins, VIP 3, lepidoptera, coleoptera, diptera, Bacillus cereus toxins, Photorabdus and nematodes, Xenorhabdus toxins 3-Hydroxysteroid oxidase lepidoptera, coleoptera, diptera, nematodes, Peroxidase lepidoptera, coleoptera, diptera, nematodes, Aminopeptidase inhibitors eg. Leucine lepidoptera, coleoptera, diptera, aminopeptidase inhibitor nematodes, Lectines lepidoptera, coleoptera, diptera, nematodes, aphids Protease Inhibitors eg. cystatin, patatin, lepidoptera, coleoptera, diptera, virgiferin, CPTI nematodes, aphids ribosome inactivating protein lepidoptera, coleoptera, diptera, nematodes, aphids HMG-CoA reductase lepidoptera, coleoptera, diptera, nematodes, aphids

TABLE A4 Crop Rice Effected target or expressed principle(s) Crop phenotype/Tolerance to Acetolactate synthase (ALS) Sulfonylureas, Imidazolinones, Triazolopyrimidines, Pyrimidyloxybenzoates, Phtalides AcetylCoA Carboxylase (ACCase) Aryloxyphenoxyalkanecarboxylic acids, cyclohexanediones Hydroxyphenylpyruvate dioxygenase Isoxazoles such as Isoxaflutol or (HPPD) Isoxachlortol, Triones such as mesotrione or sulcotrione Phosphinothricin acetyl transferase Phosphinothricin O-Methyl transferase altered lignin levels Glutamine synthetase Glufosinate, Bialaphos Adenylosuccinate Lyase (ADSL) Inhibitors of IMP and AMP synthesis Adenylosuccinate Synthase Inhibitors of adenylosuccinate synthesis Anthranilate Synthase Inhibitors of tryptophan synthesis and catabolism Nitrilase 3,5-dihalo-4-hydroxy-benzonitriles such as Bromoxynil and Ioxinyl 5-Enolpyruvyl-3phosphoshikimate Glyphosate or sulfosate Synthase (EPSPS) Glyphosate oxidoreductase Glyphosate or sulfosate Protoporphyrinogen oxidase (PROTOX) Diphenylethers, cyclic imides, phenylpyrazoles, pyridin derivatives, phenopylate, oxadiazoles etc. Cytochrome P450 eg. P450 SU1 Xenobiotics and herbicides such as Sulfonylureas Antifungal polypeptide AlyAFP plant pathogenes glucose oxidase plant pathogenes pyrrolnitrin synthesis genes plant pathogenes serine/threonine kinases plant pathogenes Phenylalanine ammonia lyase (PAL) plant pathogenes eg bacterial leaf blight and rice blast, inducible phytoalexins plant pathogenes eg bacterial leaf blight and rice blast B-1,3-glucanase antisense plant pathogenes eg bacterial leaf blight and rice blast receptor kinase plant pathogenes eg bacterial leaf blight and rice blast Hypersensitive response eliciting plant pathogenes polypeptide Systemic acquires resistance (SAR) viral, bacterial, fungal, nematodal genes pathogens Chitinases plant pathogenes eg bacterial leaf blight and rice blast Glucanases plant pathogenes double stranded ribonuclease viruses such as BYDV and MSMV Coat proteins viruses such as BYDV and MSMV Bacillus thuringiensis toxins, VIP 3, lepidoptera eg. stemborer, coleoptera eg Bacillus cereus toxins, Photorabdus and rice water weevil, diptera, rice hoppers Xenorhabdus toxins eg brown rice hopper 3-Hydroxysteroid oxidase lepidoptera eg. stemborer, coleoptera eg rice water weevil, diptera, rice hoppers eg brown rice hopper Peroxidase lepidoptera eg. stemborer, coleoptera eg rice water weevil, diptera, rice hoppers eg brown rice hopper Aminopeptidase inhibitors eg. Leucine lepidoptera eg. stemborer, coleoptera eg aminopeptidase inhibitor rice water weevil, diptera, rice hoppers eg brown rice hopper Lectines lepidoptera eg. stemborer, coleoptera eg rice water weevil, diptera, rice hoppers eg brown rice hopper Protease Inhibitors, lepidoptera eg. stemborer, coleoptera eg rice water weevil, diptera, rice hoppers eg brown rice hopper ribosome inactivating protein lepidoptera eg. stemborer, coleoptera eg rice water weevil, diptera, rice hoppers eg brown rice hopper HMG-CoA reductase lepidoptera eg. stemborer, coleoptera eg rice water weevil, diptera, rice hoppers eg brown rice hopper

TABLE A5 Crop Soya Effected target or expressed principle(s) Crop phenotype/Tolerance to Acetolactate synthase (ALS) Sulfonylureas, Imidazolinones, Triazolopyrimidines, Pyrimidyloxybenzoates, Phtalides AcetylCoA Carboxylase (ACCase) Aryloxyphenoxyalkanecarboxylic acids, cyclohexanediones Hydroxyphenylpyruvate dioxygenase Isoxazoles such as Isoxaflutol or (HPPD) Isoxachlortol, Triones such as mesotrione or sulcotrione Phosphinothricin acetyl transferase Phosphinothricin O-Methyl transferase altered lignin levels Glutamine synthetase Glufosinate, Bialaphos Adenylosuccinate Lyase (ADSL) Inhibitors of IMP and AMP synthesis Adenylosuccinate Synthase Inhibitors of adenylosuccinate synthesis Anthranilate Synthase Inhibitors of tryptophan synthesis and catabolism Nitrilase 3,5-dihalo-4-hydroxy-benzonitriles such as Bromoxynil and Ioxinyl 5-Enolpyruvyl-3phosphoshikimate Glyphosate or sulfosate Synthase (EPSPS) Glyphosate oxidoreductase Glyphosate or sulfosate Protoporphyrinogen oxidase (PROTOX) Diphenylethers, cyclic imides, phenylpyrazoles, pyridin derivatives, phenopylate, oxadiazoles etc. Cytochrome P450 eg. P450 SU1 or Xenobiotics and herbicides such as selection Sulfonylureas Antifungal polypeptide AlyAFP bacterial and fungal pathogens such as fusarium, sclerotinia, stemrot oxalate oxidase bacterial and fungal pathogens such as fusarium, sclerotinia, stemrot glucose oxidase bacterial and fungal pathogens such as fusarium, sclerotinia, stemrot pyrrolnitrin synthesis genes bacterial and fungal pathogens such as fusarium, sclerotinia, stemrot serine/threonine kinases bacterial and fungal pathogens such as fusarium, sclerotinia, stemrot Phenylalanine ammonia lyase (PAL) bacterial and fungal pathogens such as fusarium, sclerotinia, stemrot phytoalexins plant pathogenes eg bacterial leaf blight and rice blast B-1,3-glucanase antisense plant pathogenes eg bacterial leaf blight and rice blast receptor kinase bacterial and fungal pathogens such as fusarium, sclerotinia, stemrot Hypersensitive response eliciting plant pathogenes polypeptide Systemic acquires resistance (SAR) viral, bacterial, fungal, nematodal genes pathogens Chitinases bacterial and fungal pathogens such as fusarium, sclerotinia, stemrot Glucanases bacterial and fungal pathogens such as fusarium, sclerotinia, stemrot double stranded ribonuclease viruses such as BPMV and SbMV Coat proteins viruses such as BYDV and MSMV Bacillus thuringiensis toxins, VIP 3, lepidoptera, coleoptera, aphids Bacillus cereus toxins, Photorabdus and Xenorhabdus toxins 3-Hydroxysteroid oxidase lepidoptera, coleoptera, aphids Peroxidase lepidoptera, coleoptera, aphids Aminopeptidase inhibitors eg. Leucine lepidoptera, coleoptera, aphids aminopeptidase inhibitor Lectines lepidoptera, coleoptera, aphids Protease Inhibitors eg virgiferin lepidoptera, coleoptera, aphids ribosome inactivating protein lepidoptera, coleoptera, aphids HMG-CoA reductase lepidoptera, coleoptera, aphids Barnase nematodes eg root knot nematodes and cyst nematodes Cyst nematode hatching stimulus cyst nematodes Antifeeding principles nematodes eg root knot nematodes and cyst nematodes

TABLE A6 Crop Potatoes Effected target or expressed principle(s) Crop phenotype/Tolerance to Acetolactate synthase (ALS) Sulfonylureas, Imidazolinones, Triazolopyrimidines, Pyrimidyloxybenzoates, Phtalides AcetylCoA Carboxylase (ACCase) Aryloxyphenoxyalkanecarboxylic acids, cyclohexanediones Hydroxyphenylpyruvate dioxygenase Isoxazoles such as Isoxaflutol or (HPPD) Isoxachlortol, Triones such as mesotrione or sulcotrione Phosphinothricin acetyl transferase Phosphinothricin O-Methyl transferase altered lignin levels Glutamine synthetase Glufosinate, Bialaphos Adenylosuccinate Lyase (ADSL) Inhibitors of IMP and AMP synthesis Adenylosuccinate Synthase Inhibitors of adenylosuccinate synthesis Anthranilate Synthase Inhibitors of tryptophan synthesis and catabolism Nitrilase 3,5-dihalo-4-hydroxy-benzonitriles such as Bromoxynil and Ioxinyl 5-Enolpyruvyl-3phosphoshikimate Glyphosate or sulfosate Synthase (EPSPS) Glyphosate oxidoreductase Glyphosate or sulfosate Protoporphyrinogen oxidase (PROTOX) Diphenylethers, cyclic imides, phenylpyrazoles, pyridin derivatives, phenopylate, oxadiazoles etc. Cytochrome P450 eg. P450 SU1 or selection Xenobiotics and herbicides such as Sulfonylureas Polyphenol oxidase or Polyphenol blackspot bruise oxidase antisense Metallothionein bacterial and fungal pathogens such as phytophtora Ribonuclease Phytophtora, Verticillium, Rhizoctonia Antifungal polypeptide AlyAFP bacterial and fungal pathogens such as phytophtora oxalate oxidase bacterial and fungal pathogens such as Phytophtora, Verticillium, Rhizoctonia glucose oxidase bacterial and fungal pathogens such as Phytophtora, Verticillium, Rhizoctonia pyrrolnitrin synthesis genes bacterial and fungal pathogens such as Phytophtora, Verticillium, Rhizoctonia serine/threonine kinases bacterial and fungal pathogens such as Phytophtora, Verticillium, Rhizoctonia Cecropin B bacteria such as corynebacterium sepedonicum, Erwinia carotovora Phenylalanine ammonia lyase (PAL) bacterial and fungal pathogens such as Phytophtora, Verticillium, Rhizoctonia phytoalexins bacterial and fungal pathogens such as Phytophtora, Verticillium, Rhizoctonia B-1,3-glucanase antisense bacterial and fungal pathogens such as Phytophtora, Verticillium, Rhizoctonia receptor kinase bacterial and fungal pathogens such as Phytophtora, Verticillium, Rhizoctonia Hypersensitive response eliciting bacterial and fungal pathogens such as polypeptide Phytophtora, Verticillium, Rhizoctonia Systemic acquires resistance (SAR) viral, bacterial, fungal, nematodal genes pathogens Chitinases bacterial and fungal pathogens such as Phytophtora, Verticillium, Rhizoctonia Barnase bacterial and fungal pathogens such as Phytophtora, Verticillium, Rhizoctonia Disease resistance response gene 49 bacterial and fungal pathogens such as Phytophtora, Verticillium, Rhizoctonia trans aldolase antisense blackspots Glucanases bacterial and fungal pathogens such as Phytophtora, Verticillium, Rhizoctonia double stranded ribonuclease viruses such as PLRV, PVY and TRV Coat proteins viruses such as PLRV, PVY and TRV 17 kDa or 60 kDa protein viruses such as PLRV, PVY and TRV Nuclear inclusion proteins eg. a or b viruses such as PLRV, PVY and TRV Pseudoubiquitin viruses such as PLRV, PVY and TRV Replicase viruses such as PLRV, PVY and TRV Bacillus thuringiensis toxins, VIP 3, coleoptera eg Colorado potato beetle, Bacillus cereus toxins, Photorabdus and aphids Xenorhabdus toxins 3-Hydroxysteroid oxidase coleoptera eg Colorado potato beetle, aphids Peroxidase coleoptera eg Colorado potato beetle, aphids Aminopeptidase inhibitors eg. Leucine coleoptera eg Colorado potato beetle, aminopeptidase inhibitor aphids stilbene synthase coleoptera eg Colorado potato beetle, aphids Lectines coleoptera eg Colorado potato beetle, aphids Protease Inhibitors eg cystatin, patatin coleoptera eg Colorado potato beetle, aphids ribosome inactivating protein coleoptera eg Colorado potato beetle, aphids HMG-CoA reductase coleoptera eg Colorado potato beetle, aphids Cyst nematode hatching stimulus cyst nematodes Barnase nematodes eg root knot nematodes and cyst nematodes Antifeeding principles nematodes eg root knot nematodes and cyst nematodes

TABLE A7 Crop Tomatoes Effected target or expressed principle(s) Crop phenotype/Tolerance to Acetolactate synthase (ALS) Sulfonylureas, Imidazolinones, Triazolopyrimidines, Pyrimidyloxybenzoates, Phtalides AcetylCoA Carboxylase (ACCase) Aryloxyphenoxyalkanecarboxylic acids, cyclohexanediones Hydroxyphenylpyruvate dioxygenase Isoxazoles such as Isoxaflutol or (HPPD) Isoxachlortol, Triones such as mesotrione or sulcotrione Phosphinothricin acetyl transferase Phosphinothricin O-Methyl transferase altered lignin levels Glutamine synthetase Glufosinate, Bialaphos Adenylosuccinate Lyase (ADSL) Inhibitors of IMP and AMP synthesis Adenylosuccinate Synthase Inhibitors of adenylosuccinate synthesis Anthranilate Synthase Inhibitors of tryptophan synthesis and catabolism Nitrilase 3,5-dihalo-4-hydroxy-benzonitriles such as Bromoxynil and Ioxinyl 5-Enolpyruvyl-3phosphoshikimate Glyphosate or sulfosate Synthase (EPSPS) Glyphosate oxidoreductase Glyphosate or sulfosate Protoporphyrinogen oxidase (PROTOX) Diphenylethers, cyclic imides, phenylpyrazoles, pyridin derivatives, phenopylate, oxadiazoles etc. Cytochrome P450 eg. P450 SU1 or Xenobiotics and herbicides such as selection Sulfonylureas Polyphenol oxidase or Polyphenol blackspot bruise oxidase antisense Metallothionein bacterial and fungal pathogens such as phytophtora Ribonuclease Phytophtora, Verticillium, Rhizoctonia Antifungal polypeptide AlyAFP bacterial and fungal pathogens such as bacterial speck, fusarium, soft rot, powdery mildew, crown rot, leaf mould etc. oxalate oxidase bacterial and fungal pathogens such as bacterial speck, fusarium, soft rot, powdery mildew, crown rot, leaf mould etc. glucose oxidase bacterial and fungal pathogens such as bacterial speck, fusarium, soft rot, powdery mildew, crown rot, leaf mould etc. pyrrolnitrin synthesis genes bacterial and fungal pathogens such as bacterial speck, fusarium, soft rot, powdery mildew, crown rot, leaf mould etc. serine/threonine kinases bacterial and fungal pathogens such as bacterial speck, fusarium, soft rot, powdery mildew, crown rot, leaf mould etc. Cecropin B bacterial and fungal pathogens such as bacterial speck, fusarium, soft rot, powdery mildew, crown rot, leaf mould etc. Phenylalanine ammonia lyase (PAL) bacterial and fungal pathogens such as bacterial speck, fusarium, soft rot, powdery mildew, crown rot, leaf mould etc. Cf genes eg. Cf 9 Cf5 Cf4 Cf2 leaf mould Osmotin alternaria solani Alpha Hordothionin bacteria Systemin bacterial and fungal pathogens such as bacterial speck, fusarium, soft rot, powdery mildew, crown rot, leaf mould etc. Polygalacturonase inhibitors bacterial and fungal pathogens such as bacterial speck, fusarium, soft rot, powdery mildew, crown rot, leaf mould etc. Prf regulatory gene bacterial and fungal pathogens such as bacterial speck, fusarium, soft rot, powdery mildew, crown rot, leaf mould etc. 12 Fusarium resistance locus fusarium phytoalexins bacterial and fungal pathogens such as bacterial speck, fusarium, soft rot, powdery mildew, crown rot, leaf mould etc. B-1,3-glucanase antisense bacterial and fungal pathogens such as bacterial speck, fusarium, soft rot, powdery mildew, crown rot, leaf mould etc. receptor kinase bacterial and fungal pathogens such as bacterial speck, fusarium, soft rot, powdery mildew, crown rot, leaf mould etc. Hypersensitive response eliciting bacterial and fungal pathogens such as polypeptide bacterial speck, fusarium, soft rot, powdery mildew, crown rot, leaf mould etc. Systemic acquires resistance (SAR) viral, bacterial, fungal, nematodal genes pathogens Chitinases bacterial and fungal pathogens such as bacterial speck, fusarium, soft rot, powdery mildew, crown rot, leaf mould etc. Barnase bacterial and fungal pathogens such as bacterial speck, fusarium, soft rot, powdery mildew, crown rot, leaf mould etc. Glucanases bacterial and fungal pathogens such as bacterial speck, fusarium, soft rot, powdery mildew, crown rot, leaf mould etc. double stranded ribonuclease viruses such as PLRV, PVY and ToMoV Coat proteins viruses such as PLRV, PVY and ToMoV 17 kDa or 60 kDa protein viruses such as PLRV, PVY and ToMoV Nuclear inclusion proteins eg. a or b or viruses such as PLRV, PVY and ToMoV Nucleoprotein TRV Pseudoubiquitin viruses such as PLRV, PVY and ToMoV Replicase viruses such as PLRV, PVY and ToMoV Bacillus thuringiensis toxins, VIP 3, lepidoptera eg heliothis, whiteflies aphids Bacillus cereus toxins, Photorabdus and Xenorhabdus toxins 3-Hydroxysteroid oxidase lepidoptera eg heliothis, whiteflies aphids Peroxidase lepidoptera eg heliothis, whiteflies aphids Aminopeptidase inhibitors eg. Leucine lepidoptera eg heliothis, whiteflies aphids aminopeptidase inhibitor Lectines lepidoptera eg heliothis, whiteflies aphids Protease Inhibitors eg cystatin, patatin lepidoptera eg heliothis, whiteflies aphids ribosome inactivating protein lepidoptera eg heliothis, whiteflies aphids stilbene synthase lepidoptera eg heliothis, whiteflies aphids HMG-CoA reductase lepidoptera eg heliothis, whiteflies aphids Cyst nematode hatching stimulus cyst nematodes Barnase nematodes eg root knot nematodes and cyst nematodes Antifeeding principles nematodes eg root knot nematodes and cyst nematodes

TABLE A8 Crop Peppers Effected target or expressed principle(s) Crop phenotype/Tolerance to Acetolactate synthase (ALS) Sulfonylureas, Imidazolinones, Triazolopyrimidines, Pyrimidyloxybenzoates, Phtalides AcetylCoA Carboxylase (ACCase) Aryloxyphenoxyalkanecarboxylic acids, cyclohexanediones Hydroxyphenylpyruvate dioxygenase Isoxazoles such as Isoxaflutol or (HPPD) Isoxachlortol, Triones such as mesotrione or sulcotrione Phosphinothricin acetyl transferase Phosphinothricin O-Methyl transferase altered lignin levels Glutamine synthetase Glufosinate, Bialaphos Adenylosuccinate Lyase (ADSL) Inhibitors of IMP and AMP synthesis Adenylosuccinate Synthase Inhibitors of adenylosuccinate synthesis Anthranilate Synthase Inhibitors of tryptophan synthesis and catabolism Nitrilase 3,5-dihalo-4-hydroxy-benzonitriles such as Bromoxynil and Ioxinyl 5-Enolpyruvyl-3phosphoshikimate Glyphosate or sulfosate Synthase (EPSPS) Glyphosate oxidoreductase Glyphosate or sulfosate Protoporphyrinogen oxidase (PROTOX) Diphenylethers, cyclic imides, phenylpyrazoles, pyridin derivatives, phenopylate, oxadiazoles etc. Cytochrome P450 eg. P450 SU1 or Xenobiotics and herbicides such as selection Sulfonylureas Polyphenol oxidase or Polyphenol bacterial and fungal pathogens oxidase antisense Metallothionein bacterial and fungal pathogens Ribonuclease bacterial and fungal pathogens Antifungal polypeptide AlyAFP bacterial and fungal pathogens oxalate oxidase bacterial and fungal pathogens glucose oxidase bacterial and fungal pathogens pyrrolnitrin synthesis genes bacterial and fungal pathogens serine/threonine kinases bacterial and fungal pathogens Cecropin B bacterial and fungal pathogens rot, leaf mould etc. Phenylalanine ammonia lyase (PAL) bacterial and fungal pathogens Cf genes eg. Cf 9 Cf5 Cf4 Cf2 bacterial and fungal pathogens Osmotin bacterial and fungal pathogens Alpha Hordothionin bacterial and fungal pathogens Systemin bacterial and fungal pathogens Polygalacturonase inhibitors bacterial and fungal pathogens Prf regulatory gene bacterial and fungal pathogens I2 Fusarium resistance locus fusarium phytoalexins bacterial and fungal pathogens B-1,3-glucanase antisense bacterial and fungal pathogens receptor kinase bacterial and fungal pathogens Hypersensitive response eliciting bacterial and fungal pathogens polypeptide Systemic acquires resistance (SAR) viral, bacterial, fungal, nematodal genes pathogens Chitinases bacterial and fungal pathogens Barnase bacterial and fungal pathogens Glucanases bacterial and fungal pathogens double stranded ribonuclease viruses such as CMV, TEV Coat proteins viruses such as CMV, TEV 17 kDa or 60 kDa protein viruses such as CMV, TEV Nuclear inclusion proteins eg. a or b or viruses such as CMV, TEV Nucleoprotein Pseudoubiquitin viruses such as CMV, TEV Replicase viruses such as CMV, TEV Bacillus thuringiensis toxins, VIP 3, lepidoptera, whiteflies aphids Bacillus cereus toxins, Photorabdus and Xenorhabdus toxins 3-Hydroxysteroid oxidase lepidoptera, whiteflies aphids Peroxidase lepidoptera, whiteflies aphids Aminopeptidase inhibitors eg. Leucine lepidoptera, whiteflies aphids aminopeptidase inhibitor Lectines lepidoptera, whiteflies aphids Protease Inhibitors eg cystatin, patatin lepidoptera, whiteflies aphids ribosome inactivating protein lepidoptera, whiteflies aphids stilbene synthase lepidoptera, whiteflies aphids HMG-CoA reductase lepidoptera, whiteflies aphids Cyst nematode hatching stimulus cyst nematodes Barnase nematodes eg root knot nematodes and cyst nematodes Antifeeding principles nematodes eg root knot nematodes and cyst nematodes

TABLE A9 Crop Grapes Effected target or expressed principle(s) Crop phenotype/Tolerance to Acetolactate synthase (ALS) Sulfonylureas, Imidazolinones, Triazolopyrimidines, Pyrimidyloxybenzoates, Phtalides AcetylCoA Carboxylase (ACCase) Aryloxyphenoxyalkanecarboxylic acids, cyclohexanediones Hydroxyphenylpyruvate dioxygenase Isoxazoles such as Isoxaflutol or (HPPD) Isoxachlortol, Triones such as mesotrione or sulcotrione Phosphinothricin acetyl transferase Phosphinothricin O-Methyl transferase altered lignin levels Glutamine synthetase Glufosinate, Bialaphos Adenylosuccinate Lyase (ADSL) Inhibitors of IMP and AMP synthesis Adenylosuccinate Synthase Inhibitors of adenylosuccinate synthesis Anthranilate Synthase Inhibitors of tryptophan synthesis and catabolism Nitrilase 3,5-dihalo-4-hydroxy-benzonitriles such as Bromoxynil and Ioxinyl 5-Enolpyruvyl-3phosphoshikimate Glyphosate or sulfosate Synthase (EPSPS) Glyphosate oxidoreductase Glyphosate or sulfosate Protoporphyrinogen oxidase (PROTOX) Diphenylethers, cyclic imides, phenylpyrazoles, pyridin derivatives, phenopylate, oxadiazoles etc. Cytochrome P450 eg. P450 SU1 or Xenobiotics and herbicides such as selection Sulfonylureas Polyphenol oxidase or Polyphenol bacterial and fungal pathogens like oxidase antisense Botrytis and powdery mildew Metallothionein bacterial and fungal pathogens like Botrytis and powdery mildew Ribonuclease bacterial and fungal pathogens like Botrytis and powdery mildew Antifungal polypeptide AlyAFP bacterial and fungal pathogens like Botrytis and powdery mildew oxalate oxidase bacterial and fungal pathogens like Botrytis and powdery mildew glucose oxidase bacterial and fungal pathogens like Botrytis and powdery mildew pyrrolnitrin synthesis genes bacterial and fungal pathogens like Botrytis and powdery mildew serine/threonine kinases bacterial and fungal pathogens like Botrytis and powdery mildew Cecropin B bacterial and fungal pathogens like Botrytis and powdery mildew Phenylalanine ammonia lyase (PAL) bacterial and fungal pathogens like Botrytis and powdery mildew Cf genes eg. Cf 9 Cf5 Cf4 Cf2 bacterial and fungal pathogens like Botrytis and powdery mildew Osmotin bacterial and fungal pathogens like Botrytis and powdery mildew Alpha Hordothionin bacterial and fungal pathogens like Botrytis and powdery mildew Systemin bacterial and fungal pathogens like Botrytis and powdery mildew Polygalacturonase inhibitors bacterial and fungal pathogens like Botrytis and powdery mildew Prf regulatory gene bacterial and fungal pathogens like Botrytis and powdery mildew phytoalexins bacterial and fungal pathogens like Botrytis and powdery mildew B-1,3-glucanase antisense bacterial and fungal pathogens like Botrytis and powdery mildew receptor kinase bacterial and fungal pathogens like Botrytis and powdery mildew Hypersensitive response eliciting bacterial and fungal pathogens like polypeptide Botrytis and powdery mildew Systemic acquires resistance (SAR) viral, bacterial, fungal, nematodal genes pathogens Chitinases bacterial and fungal pathogens like Botrytis and powdery mildew Barnase bacterial and fungal pathogens like Botrytis and powdery mildew Glucanases bacterial and fungal pathogens like Botrytis and powdery mildew double stranded ribonuclease viruses Coat proteins viruses 17 kDa or 60 kDa protein viruses Nuclear inclusion proteins eg. a or b or viruses Nucleoprotein Pseudoubiquitin viruses Replicase viruses Bacillus thuringiensis toxins, VIP 3, lepidoptera, aphids Bacillus cereus toxins, Photorabdus and Xenorhabdus toxins 3-Hydroxysteroid oxidase lepidoptera, aphids Peroxidase lepidoptera, aphids Aminopeptidase inhibitors eg. Leucine lepidoptera, aphids aminopeptidase inhibitor Lectines lepidoptera, aphids Protease Inhibitors eg cystatin, patatin lepidoptera, aphids ribosome inactivating protein lepidoptera, aphids stilbene synthase lepidoptera, aphids, diseases HMG-CoA reductase lepidoptera, aphids Cyst nematode hatching stimulus cyst nematodes Barnase nematodes eg root knot nematodes and cyst nematodes or general diseases CBI root knot nematodes Antifeeding principles nematodes eg root knot nematodes or root cyst nematodes

TABLE A10 crop Oil Seed rape Effected target or expressed principle(s) Crop phenotype/Tolerance to Acetolactate synthase (ALS) Sulfonylureas, Imidazolinones, Triazolopyrimidines, Pyrimidyloxybenzoates, Phtalides AcetylCoA Carboxylase (ACCase) Aryloxyphenoxyalkanecarboxylic acids, cyclohexanediones Hydroxyphenylpyruvate dioxygenase Isoxazoles such as Isoxaflutol or (HPPD) Isoxachlortol, Triones such as mesotrione or sulcotrione Phosphinothricin acetyl transferase Phosphinothricin O-Methyl transferase altered lignin levels Glutamine synthetase Glufosinate, Bialaphos Adenylosuccinate Lyase (ADSL) Inhibitors of IMP and AMP synthesis Adenylosuccinate Synthase Inhibitors of adenylosuccinate synthesis Anthranilate Synthase Inhibitors of tryptophan synthesis and catabolism Nitrilase 3,5-dihalo-4-hydroxy-benzonitriles such as Bromoxynil and Ioxinyl 5-Enolpyruvyl-3phosphoshikimate Glyphosate or sulfosate Synthase (EPSPS) Glyphosate oxidoreductase Glyphosate or sulfosate Protoporphyrinogen oxidase (PROTOX) Diphenylethers, cyclic imides, phenylpyrazoles, pyridin derivatives, phenopylate, oxadiazoles etc. Cytochrome P450 eg. P450 SU1 or Xenobiotics and herbicides such as selection Sulfonylureas Polyphenol oxidase or Polyphenol bacterial and fungal pathogens like oxidase antisense Cylindrosporium, Phoma, Sclerotinia Metallothionein bacterial and fungal pathogens like Cylindrosporium, Phoma, Sclerotinia Ribonuclease bacterial and fungal pathogens like Cylindrosporium, Phoma, Sclerotinia Antifungal polypeptide AlyAFP bacterial and fungal pathogens like Cylindrosporium, Phoma, Sclerotinia oxalate oxidase bacterial and fungal pathogens like Cylindrosporium, Phoma, Sclerotinia glucose oxidase bacterial and fungal pathogens like Cylindrosporium, Phoma, Sclerotinia pyrrolnitrin synthesis genes bacterial and fungal pathogens like Cylindrosporium, Phoma, Sclerotinia serine/threonine kinases bacterial and fungal pathogens like Cylindrosporium, Phoma, Sclerotinia Cecropin B bacterial and fungal pathogens like Cylindrosporium, Phoma, Sclerotinia Phenylalanine ammonia lyase (PAL) bacterial and fungal pathogens like Cylindrosporium, Phoma, Sclerotinia Cf genes eg. Cf 9 Cf5 Cf4 Cf2 bacterial and fungal pathogens like Cylindrosporium, Phoma, Sclerotinia Osmotin bacterial and fungal pathogens like Cylindrosporium, Phoma, Sclerotinia Alpha Hordothionin bacterial and fungal pathogens like Cylindrosporium, Phoma, Sclerotinia Systemin bacterial and fungal pathogens like Cylindrosporium, Phoma, Sclerotinia Polygalacturonase inhibitors bacterial and fungal pathogens like Cylindrosporium, Phoma, Sclerotinia Prf regulatory gene bacterial and fungal pathogens like Cylindrosporium, Phoma, Sclerotinia phytoalexins bacterial and fungal pathogens like Cylindrosporium, Phoma, Sclerotinia B-1,3-glucanase antisense bacterial and fungal pathogens like Cylindrosporium, Phoma, Sclerotinia receptor kinase bacterial and fungal pathogens like Cylindrosporium, Phoma, Sclerotinia Hypersensitive response eliciting bacterial and fungal pathogens like polypeptide Cylindrosporium, Phoma, Sclerotinia Systemic acquires resistance (SAR) viral, bacterial, fungal, nematodal genes pathogens Chitinases bacterial and fungal pathogens like Cylindrosporium, Phoma, Sclerotinia Barnase bacterial and fungal pathogens like Cylindrosporium, Phoma, Sclerotinia, nematodes Glucanases bacterial and fungal pathogens like Cylindrosporium, Phoma, Sclerotinia double stranded ribonuclease viruses Coat proteins viruses 17 kDa or 60 kDa protein viruses Nuclear inclusion proteins eg. a or b or viruses Nucleoprotein Pseudoubiquitin viruses Replicase viruses Bacillus thuringiensis toxins, VIP 3, lepidoptera, aphids Bacillus cereus toxins, Photorabdus and Xenorhabdus toxins 3-Hydroxysteroid oxidase lepidoptera, aphids Peroxidase lepidoptera, aphids Aminopeptidase inhibitors eg. Leucine lepidoptera, aphids aminopeptidase inhibitor Lectines lepidoptera, aphids Protease Inhibitors eg cystatin, patatin, lepidoptera, aphids CPTI ribosome inactivating protein lepidoptera, aphids stilbene synthase lepidoptera, aphids, diseases HMG-CoA reductase lepidoptera, aphids Cyst nematode hatching stimulus cyst nematodes Barnase nematodes eg root knot nematodes and cyst nematodes CBI root knot nematodes Antifeeding principles induced at a nematodes eg root knot nematodes, root nematode feeding site cyst nematodes

TABLE A11 Crop Brassica vegetable (cabbage, brussel sprouts, broccoli etc.) Effected target or expressed principle(s) Crop phenotype/Tolerance to Acetolactate synthase Sulfonylureas, Imidazolinones, (ALS) Triazolopyrimidines, Pyrimidyloxybenzoates, Phtalides AcetylCoA Carboxylase Aryloxyphenoxyalkanecarboxylic (ACCase) acids, cyclohexanediones Hydroxyphenylpyruvate Isoxazoles such as Isoxaflutol dioxygenase (HPPD) or Isoxachlortol, Triones such as mesotrione or sulcotrione Phosphinothricin acetyl Phosphinothricin transferase O-Methyl transferase altered lignin levels Glutamine synthetase Glufosinate, Bialaphos Adenylosuccinate Lyase Inhibitors of IMP and AMP (ADSL) synthesis Adenylosuccinate Synthase Inhibitors of adenylosuccinate synthesis Anthranilate Synthase Inhibitors of tryptophan syn- thesis and catabolism Nitrilase 3,5-dihalo-4-hydroxy-benzonitriles such as Bromoxynil and Ioxinyl 5-Enolpyruvyl- Glyphosate or sulfosate 3phosphoshikimate Synthase (EPSPS) Glyphosate oxidoreductase Glyphosate or sulfosate Protoporphyrinogen oxidase Diphenylethers, cyclic imides, (PROTOX) phenylpyrazoles, pyridin derivatives, phenopylate, oxadiazoles etc. Cytochrome P450 eg. P450 Xenobiotics and herbicides such as SU1 or selection Sulfonylureas Polyphenol oxidase or bacterial and fungal pathogens Polyphenol oxidase antisense Metallothionein bacterial and fungal pathogens Ribonuclease bacterial and fungal pathogens Antifungal polypeptide bacterial and fungal pathogens AlyAFP oxalate oxidase bacterial and fungal pathogens glucose oxidase bacterial and fungal pathogens pyrrolnitrin synthesis bacterial and fungal pathogens genes serine/threonine kinases bacterial and fungal pathogens Cecropin B bacterial and fungal pathogens Phenylalanine ammonia bacterial and fungal pathogens lyase (PAL) Cf genes eg. Cf 9 Cf5 bacterial and fungal pathogens Cf4 Cf2 Osmotin bacterial and fungal pathogens Alpha Hordothionin bacterial and fungal pathogens Systemin bacterial and fungal pathogens Polygalacturonase inhibitors bacterial and fungal pathogens Prf regulatory gene bacterial and fungal pathogens phytoalexins bacterial and fungal pathogens B-1,3-glucanase antisense bacterial and fungal pathogens receptor kinase bacterial and fungal pathogens Hypersensitive response bacterial and fungal pathogens eliciting polypeptide Systemic acquires resistance viral, bacterial, fungal, (SAR) genes nematodal pathogens Chitinases bacterial and fungal pathogens Barnase bacterial and fungal pathogens Glucanases bacterial and fungal pathogens double stranded ribonuclease viruses Coat proteins viruses 17 kDa or 60 kDa protein viruses Nuclear inclusion proteins viruses eg. a or b or Nucleoprotein Pseudoubiquitin viruses Replicase viruses Bacillus thuringiensis lepidoptera, aphids toxins, VIP 3, Bacillus cereus toxins, Photorabdus and Xenorhabdus toxins 3-Hydroxysteroid oxidase lepidoptera, aphids Peroxidase lepidoptera, aphids Aminopeptidase inhibitors lepidoptera, aphids eg. Leucine aminopeptidase inhibitor Lectines lepidoptera, aphids Protease Inhibitors eg lepidoptera, aphids cystatin, patatin, CPTI ribosome inactivating lepidoptera, aphids protein stilbene synthase lepidoptera, aphids, diseases HMG-CoA reductase lepidoptera, aphids Cyst nematode hatching cyst nematodes stimulus Barnase nematodes eg root knot nematodes and cyst nematodes CBI root knot nematodes Antifeeding principles nematodes eg root knot nematodes, induced at a nematode root cyst nematodes feeding site

TABLE A12 Crop Pome fruits eg apples, pears Effected target or expressed principle(s) Crop phenotype/Tolerance to Acetolactate synthase Sulfonylureas, Imidazolinones, (ALS) Triazolopyrimidines, Pyrimidyloxybenzoates, Phtalides AcetylCoA Carboxylase Aryloxyphenoxyalkanecarboxylic (ACCase) acids, cyclohexanediones Hydroxyphenylpyruvate Isoxazoles such as Isoxaflutol dioxygenase (HPPD) or Isoxachlortol, Triones such as mesotrione or sulcotrione Phosphinothricin acetyl Phosphinothricin transferase O-Methyl transferase altered lignin levels Glutamine synthetase Glufosinate, Bialaphos Adenylosuccinate Lyase Inhibitors of IMP and AMP (ADSL) synthesis Adenylosuccinate Synthase Inhibitors of adenylosuccinate synthesis Anthranilate Synthase Inhibitors of tryptophan syn- thesis and catabolism Nitrilase 3,5-dihalo-4-hydroxy-benzonitriles such as Bromoxynil and Ioxinyl 5-Enolpyruvyl-3phosphoshikimate Glyphosate or sulfosate Synthase (EPSPS) Glyphosate oxidoreductase Glyphosate or sulfosate Protoporphyrinogen oxidase Diphenylethers, cyclic imides, (PROTOX) phenylpyrazoles, pyridin derivatives, phenopylate, oxadiazoles etc. Cytochrome P450 eg. P450 SU1 Xenobiotics and herbicides or selection such as Sulfonylureas Polyphenol oxidase or Polyphenol bacterial and fungal pathogens oxidase antisense like apple scab or fireblight Metallothionein bacterial and fungal pathogens like apple scab or fireblight Ribonuclease bacterial and fungal pathogens like apple scab or fireblight Antifungal polypeptide AlyAFP bacterial and fungal pathogens like apple scab or fireblight oxalate oxidase bacterial and fungal pathogens like apple scab or fireblight glucose oxidase bacterial and fungal pathogens like apple scab or fireblight pyrrolnitrin synthesis genes bacterial and fungal pathogens like apple scab or fireblight serine/threonine kinases bacterial and fungal pathogens like apple scab or fireblight Cecropin B bacterial and fungal pathogens like apple scab or fireblight Phenylalanine ammonia lyase bacterial and fungal pathogens (PAL) like apple scab or fireblight Cf genes eg. Cf 9 Cf5 Cf4 Cf2 bacterial and fungal pathogens like apple scab or fireblight Osmotin bacterial and fungal pathogens like apple scab or fireblight Alpha Hordothionin bacterial and fungal pathogens like apple scab or fireblight Systemin bacterial and fungal pathogens like apple scab or fireblight Polygalacturonase inhibitors bacterial and fungal pathogens like apple scab or fireblight Prf regulatory gene bacterial and fungal pathogens like apple scab or fireblight phytoalexins bacterial and fungal pathogens like apple scab or fireblight B-1,3-glucanase antisense bacterial and fungal pathogens like apple scab or fireblight receptor kinase bacterial and fungal pathogens like apple scab or fireblight Hypersensitive response bacterial and fungal pathogens eliciting polypeptide like apple scab or fireblight Systemic acquires resistance viral, bacterial, fungal, (SAR) genes nematodal pathogens Lytic protein bacterial and fungal pathogens like apple scab or fireblight Lysozym bacterial and fungal pathogens like apple scab or fireblight Chitinases bacterial and fungal pathogens like apple scab or fireblight Barnase bacterial and fungal pathogens like apple scab or fireblight Glucanases bacterial and fungal pathogens like apple scab or fireblight double stranded ribonuclease viruses Coat proteins viruses 17 kDa or 60 kDa protein viruses Nuclear inclusion proteins viruses eg. a or b or Nucleoprotein Pseudoubiquitin viruses Replicase viruses Bacillus thuringiensis toxins, lepidoptera, aphids, mites VIP 3, Bacillus cereus toxins, Photorabdus and Xenorhabdus toxins 3-Hydroxysteroid oxidase lepidoptera, aphids, mites Peroxidase lepidoptera, aphids, mites Aminopeptidase inhibitors eg. lepidoptera, aphids, mites Leucine aminopeptidase inhibitor Lectines lepidoptera, aphids, mites Protease Inhibitors eg cystatin, lepidoptera, aphids, mites patatin, CPTI ribosome inactivating protein lepidoptera, aphids, mites stilbene synthase lepidoptera, aphids, diseases, mites HMG-CoA reductase lepidoptera, aphids, mites Cyst nematode hatching stimulus cyst nematodes Barnase nematodes eg root knot nematodes and cyst nematodes CBI root knot nematodes Antifeeding principles induced nematodes eg root knot nematodes, at a nematode feeding site root cyst nematodes

TABLE A13 Crop Melons Effected target or expressed principle(s) Crop phenotype/Tolerance to Acetolactate synthase Sulfonylureas, Imidazolinones, (ALS) Triazolopyrimidines, Pyrimidyloxybenzoates, Phtalides AcetylCoA Carboxylase Aryloxyphenoxyalkanecarboxylic (ACCase) acids, cyclohexanediones Hydroxyphenylpyruvate Isoxazoles such as Isoxaflutol dioxygenase (HPPD) or Isoxachlortol, Triones such as mesotrione or sulcotrione Phosphinothricin acetyl Phosphinothricin transferase O-Methyl transferase altered lignin levels Glutamine synthetase Glufosinate, Bialaphos Adenylosuccinate Lyase Inhibitors of IMP and AMP (ADSL) synthesis Adenylosuccinate Synthase Inhibitors of adenylosuccinate synthesis Anthranilate Synthase Inhibitors of tryptophan syn- thesis and catabolism Nitrilase 3,5-dihalo-4-hydroxy-benzonitriles such as Bromoxynil and Ioxinyl 5-Enolpyruvyl-3phosphoshikimate Glyphosate or sulfosate Synthase (EPSPS) Glyphosate oxidoreductase Glyphosate or sulfosate Protoporphyrinogen oxidase Diphenylethers, cyclic imides, (PROTOX) phenylpyrazoles, pyridin derivatives, phenopylate, oxadiazoles etc. Cytochrome P450 eg. P450 SU1 Xenobiotics and herbicides such or selection as Sulfonylureas Polyphenol oxidase or Polyphenol bacterial or fungal pathogens oxidase antisense like phytophtora Metallothionein bacterial or fungal pathogens like phytophtora Ribonuclease bacterial or fungal pathogens like phytophtora Antifungal polypeptide AlyAFP bacterial or fungal pathogens like phytophtora oxalate oxidase bacterial or fungal pathogens like phytophtora glucose oxidase bacterial or fungal pathogens like phytophtora pyrrolnitrin synthesis genes bacterial or fungal pathogens like phytophtora serine/threonine kinases bacterial or fungal pathogens like phytophtora Cecropin B bacterial or fungal pathogens like phytophtora Phenylalanine ammonia lyase bacterial or fungal pathogens (PAL) like phytophtora Cf genes eg. Cf 9 Cf5 Cf4 Cf2 bacterial or fungal pathogens like phytophtora Osmotin bacterial or fungal pathogens like phytophtora Alpha Hordothionin bacterial or fungal pathogens like phytophtora Systemin bacterial or fungal pathogens like phytophtora Polygalacturonase inhibitors bacterial or fungal pathogens like phytophtora Prf regulatory gene bacterial or fungal pathogens like phytophtora phytoalexins bacterial or fungal pathogens like phytophtora B-1,3-glucanase antisense bacterial or fungal pathogens like phytophtora receptor kinase bacterial or fungal pathogens like phytophtora Hypersensitive response bacterial or fungal pathogens eliciting polypeptide like phytophtora Systemic acquires resistance viral, bacterial, fungal, (SAR) genes nematodal pathogens Lytic protein bacterial or fungal pathogens like phytophtora Lysozym bacterial or fungal pathogens like phytophtora Chitinases bacterial or fungal pathogens like phytophtora Barnase bacterial or fungal pathogens like phytophtora Glucanases bacterial or fungal pathogens like phytophtora double stranded ribonuclease viruses as CMV,, PRSV, WMV2, SMV, ZYMV Coat proteins viruses as CMV,, PRSV, WMV2, SMV, ZYMV 17 kDa or 60 kDa protein viruses as CMV,, PRSV, WMV2, SMV, ZYMV Nuclear inclusion proteins eg. viruses as CMV,, PRSV, WMV2, a or b or Nucleoprotein SMV, ZYMV Pseudoubiquitin viruses as CMV,, PRSV, WMV2, SMV, ZYMV Replicase viruses as CMV,, PRSV, WMV2, SMV, ZYMV Bacillus thuringiensis toxins, lepidoptera, aphids, mites VIP 3, Bacillus cereus toxins, Photorabdus and Xenorhabdus toxins 3-Hydroxysteroid oxidase lepidoptera, aphids, mites, whitefly Peroxidase lepidoptera, aphids, mites, whitefly Aminopeptidase inhibitors eg. lepidoptera, aphids, mites, Leucine aminopeptidase inhibitor whitefly Lectines lepidoptera, aphids, mites, whitefly Protease Inhibitors eg cystatin, lepidoptera, aphids, mites, patatin, CPTI, virgiferin whitefly ribosome inactivating protein lepidoptera, aphids, mites, whitefly stilbene synthase lepidoptera, aphids, mites, whitefly HMG-CoA reductase lepidoptera, aphids, mites, whitefly Cyst nematode hatching stimulus cyst nematodes Barnase nematodes eg root knot nematodes and cyst nematodes CBI root knot nematodes Antifeeding principles induced nematodes eg root knot nematodes, at a nematode feeding site root cyst nematodes

TABLE A14 Crop Banana Effected target or expressed principle(s) Crop phenotype/Tolerance to Acetolactate synthase Sulfonylureas, Imidazolinones, (ALS) Triazolopyrimidines, Pyrimidyloxybenzoates, Phtalides AcetylCoA Carboxylase Aryloxyphenoxyalkanecarboxylic (ACCase) acids, cyclohexanediones Hydroxyphenylpyruvate Isoxazoles such as Isoxaflutol dioxygenase (HPPD) or Isoxachlortol, Triones such as mesotrione or sulcotrione Phosphinothricin acetyl Phosphinothricin transferase O-Methyl transferase altered lignin levels Glutamine synthetase Glufosinate, Bialaphos Adenylosuccinate Lyase Inhibitors of IMP and AMP (ADSL) synthesis Adenylosuccinate Synthase Inhibitors of adenylosuccinate synthesis Anthranilate Synthase Inhibitors of tryptophan syn- thesis and catabolism Nitrilase 3,5-dihalo-4-hydroxy-benzonitriles such as Bromoxynil and Ioxinyl 5-Enolpyruvyl-3phosphoshikimate Glyphosate or sulfosate Synthase (EPSPS) Glyphosate oxidoreductase Glyphosate or sulfosate Protoporphyrinogen oxidase Diphenylethers, cyclic imides, (PROTOX) phenylpyrazoles, pyridin derivatives, phenopylate, oxadiazoles etc. Cytochrome P450 eg. P450 SU1 Xenobiotics and herbicides or selection such as Sulfonylureas Polyphenol oxidase or Polyphenol bacterial or fungal pathogens oxidase antisense Metallothionein bacterial or fungal pathogens Ribonuclease bacterial or fungal pathogens Antifungal polypeptide AlyAFP bacterial or fungal pathogens oxalate oxidase bacterial or fungal pathogens glucose oxidase bacterial or fungal pathogens pyrrolnitrin synthesis genes bacterial or fungal pathogens serine/threonine kinases bacterial or fungal pathogens Cecropin B bacterial or fungal pathogens Phenylalanine ammonia lyase bacterial or fungal pathogens (PAL) Cf genes eg. Cf 9 Cf5 Cf4 Cf2 bacterial or fungal pathogens Osmotin bacterial or fungal pathogens Alpha Hordothionin bacterial or fungal pathogens Systemin bacterial or fungal pathogens Polygalacturonase inhibitors bacterial or fungal pathogens Prf regulatory gene bacterial or fungal pathogens phytoalexins bacterial or fungal pathogens B-1,3-glucanase antisense bacterial or fungal pathogens receptor kinase bacterial or fungal pathogens Hypersensitive response bacterial or fungal pathogens eliciting polypeptide Systemic acquires resistance viral, bacterial, fungal, (SAR) genes nematodal pathogens Lytic protein bacterial or fungal pathogens Lysozym bacterial or fungal pathogens Chitinases bacterial or fungal pathogens Barnase bacterial or fungal pathogens Glucanases bacterial or fungal pathogens double stranded ribonuclease viruses as Banana bunchy top virus (BBTV) Coat proteins viruses as Banana bunchy top virus (BBTV) 17 kDa or 60 kDa protein viruses as Banana bunchy top virus (BBTV) Nuclear inclusion proteins eg. viruses as Banana bunchy top a or b or Nucleoprotein virus (BBTV) Pseudoubiquitin viruses as Banana bunchy top virus (BBTV) Replicase viruses as Banana bunchy top virus (BBTV) Bacillus thuringiensis toxins, lepidoptera, aphids, mites, VIP 3, Bacillus cereus toxins, nematodes Photorabdus and Xenorhabdus toxins 3-Hydroxysteroid oxidase lepidoptera, aphids, mites, nematodes Peroxidase lepidoptera, aphids, mites, nematodes Aminopeptidase inhibitors eg. lepidoptera, aphids, mites, Leucine aminopeptidase inhibitor nematodes Lectines lepidoptera, aphids, mites, nematodes Protease Inhibitors eg cystatin, lepidoptera, aphids, mites, patatin, CPTI, virgiferin nematodes ribosome inactivating protein lepidoptera, aphids, mites, nematodes stilbene synthase lepidoptera, aphids, mites, nematodes HMG-CoA reductase lepidoptera, aphids, mites, nematodes Cyst nematode hatching stimulus cyst nematodes Barnase nematodes eg root knot nematodes and cyst nematodes CBI root knot nematodes Antifeeding principles induced nematodes eg root knot nematodes, at a nematode feeding site root cyst nematodes

TABLE A15 Crop Cotton Effected target or expressed principle(s) Crop phenotype/Tolerance to Acetolactate synthase Sulfonylureas, Imidazolinones, (ALS) Triazolopyrimidines, Pyrimidyloxybenzoates, Phtalides AcetylCoA Carboxylase Aryloxyphenoxyalkanecarboxylic (ACCase) acids, cyclohexanediones Hydroxyphenylpyruvate Isoxazoles such as Isoxaflutol dioxygenase (HPPD) or Isoxachlortol, Triones such as mesotrione or sulcotrione Phosphinothricin acetyl Phosphinothricin transferase O-Methyl transferase altered lignin levels Glutamine synthetase Glufosinate, Bialaphos Adenylosuccinate Lyase Inhibitors of IMP and AMP (ADSL) synthesis Adenylosuccinate Synthase Inhibitors of adenylosuccinate synthesis Anthranilate Synthase Inhibitors of tryptophan syn- thesis and catabolism Nitrilase 3,5-dihalo-4-hydroxy-benzonitriles such as Bromoxynil and Ioxinyl 5-Enolpyruvyl-3phosphoshikimate Glyphosate or sulfosate Synthase (EPSPS) Glyphosate oxidoreductase Glyphosate or sulfosate Protoporphyrinogen oxidase Diphenylethers, cyclic imides, (PROTOX) phenylpyrazoles, pyridin derivatives, phenopylate, oxadiazoles etc. Cytochrome P450 eg. P450 SU1 Xenobiotics and herbicides or selection such as Sulfonylureas Polyphenol oxidase or Polyphenol bacterial or fungal pathogens oxidase antisense Metallothionein bacterial or fungal pathogens Ribonuclease bacterial or fungal pathogens Antifungal polypeptide AlyAFP bacterial or fungal pathogens oxalate oxidase bacterial or fungal pathogens glucose oxidase bacterial or fungal pathogens pyrrolnitrin synthesis genes bacterial or fungal pathogens serine/threonine kinases bacterial or fungal pathogens Cecropin B bacterial or fungal pathogens Phenylalanine ammonia lyase bacterial or fungal pathogens (PAL) Cf genes eg. Cf 9 Cf5 Cf4 Cf2 bacterial or fungal pathogens Osmotin bacterial or fungal pathogens Alpha Hordothionin bacterial or fungal pathogens Systemin bacterial or fungal pathogens Polygalacturonase inhibitors bacterial or fungal pathogens Prf regulatory gene bacterial or fungal pathogens phytoalexins bacterial or fungal pathogens B-1,3-glucanase antisense bacterial or fungal pathogens receptor kinase bacterial or fungal pathogens Hypersensitive response bacterial or fungal pathogens eliciting polypeptide Systemic acquires resistance viral, bacterial, fungal, (SAR) genes nematodal pathogens Lytic protein bacterial or fungal pathogens Lysozym bacterial or fungal pathogens Chitinases bacterial or fungal pathogens Barnase bacterial or fungal pathogens Glucanases bacterial or fungal pathogens double stranded ribonuclease viruses as wound tumor virus (WTV) Coat proteins viruses as wound tumor virus (WTV) 17 kDa or 60 kDa protein viruses as wound tumor virus (WTV) Nuclear inclusion proteins eg. viruses as wound tumor virus a or b or Nucleoprotein (WTV) Pseudoubiquitin viruses as wound tumor virus (WTV) Replicase viruses as wound tumor virus (WTV) Bacillus thuringiensis toxins, lepidoptera, aphids, mites, VIP 3, Bacillus cereus toxins, nematodes, whitefly Photorabdus and Xenorhabdus toxins 3-Hydroxysteroid oxidase lepidoptera, aphids, mites, nematodes, whitefly Peroxidase lepidoptera, aphids, mites, nematodes, whitefly Aminopeptidase inhibitors eg. lepidoptera, aphids, mites, Leucine aminopeptidase inhibitor nematodes, whitefly Lectines lepidoptera, aphids, mites, nematodes, whitefly Protease Inhibitors eg cystatin, lepidoptera, aphids, mites, patatin, CPTI, virgiferin nematodes, whitefly ribosome inactivating protein lepidoptera, aphids, mites, nematodes, whitefly stilbene synthase lepidoptera, aphids, mites, nematodes, whitefly HMG-CoA reductase lepidoptera, aphids, mites, nematodes, whitefly Cyst nematode hatching stimulus cyst nematodes Barnase nematodes eg root knot nematodes and cyst nematodes CBI root knot nematodes Antifeeding principles induced nematodes eg root knot nematodes, at a nematode feeding site root cyst nematodes

TABLE A16 Crop Sugarcane Effected target or expressed principle(s) Crop phenotype/Tolerance to Acetolactate synthase Sulfonylureas, Imidazolinones, (ALS) Triazolopyrimidines, Pyrimidyloxybenzoates, Phtalides AcetylCoA Carboxylase Aryloxyphenoxyalkanecarboxylic (ACCase) acids, cyclohexanediones Hydroxyphenylpyruvate Isoxazoles such as Isoxaflutol dioxygenase (HPPD) or Isoxachlortol, Triones such as mesotrione or sulcotrione Phosphinothricin acetyl Phosphinothricin transferase O-Methyl transferase altered lignin levels Glutamine synthetase Glufosinate, Bialaphos Adenylosuccinate Lyase Inhibitors of IMP and AMP (ADSL) synthesis Adenylosuccinate Synthase Inhibitors of adenylosuccinate synthesis Anthranilate Synthase Inhibitors of tryptophan synthesis and catabolism Nitrilase 3,5-dihalo-4-hydroxy-benzonitriles such as Bromoxynil and Ioxinyl 5-Enolpyruvyl-3phosphoshikimate Glyphosate or sulfosate Synthase (EPSPS) Glyphosate oxidoreductase Glyphosate or sulfosate Protoporphyrinogen oxidase Diphenylethers, cyclic imides, (PROTOX) phenylpyrazoles, pyridin derivatives, phenopylate, oxadiazoles etc. Cytochrome P450 eg. P450 SU1 Xenobiotics and herbicides or selection such as Sulfonylureas Polyphenol oxidase or Polyphenol bacterial or fungal pathogens oxidase antisense Metallothionein bacterial or fungal pathogens Ribonuclease bacterial or fungal pathogens Antifungal polypeptide AlyAFP bacterial or fungal pathogens oxalate oxidase bacterial or fungal pathogens glucose oxidase bacterial or fungal pathogens pyrrolnitrin synthesis genes bacterial or fungal pathogens serine/threonine kinases bacterial or fungal pathogens Cecropin B bacterial or fungal pathogens Phenylalanine ammonia lyase bacterial or fungal pathogens (PAL) Cf genes eg. Cf 9 Cf5 Cf4 Cf2 bacterial or fungal pathogens Osmotin bacterial or fungal pathogens Alpha Hordothionin bacterial or fungal pathogens Systemin bacterial or fungal pathogens Polygalacturonase inhibitors bacterial or fungal pathogens Prf regulatory gene bacterial or fungal pathogens phytoalexins bacterial or fungal pathogens B-1,3-glucanase antisense bacterial or fungal pathogens receptor kinase bacterial or fungal pathogens Hypersensitive response bacterial or fungal pathogens eliciting polypeptide Systemic acquires resistance viral, bacterial, fungal, (SAR) genes nematodal pathogens Lytic protein bacterial or fungal pathogens Lysozym bacterial or fungal pathogens eg clavibacter Chitinases bacterial or fungal pathogens Barnase bacterial or fungal pathogens Glucanases bacterial or fungal pathogens double stranded ribonuclease viruses as SCMV, SrMV Coat proteins viruses as SCMV, SrMV 17 kDa or 60 kDa protein viruses as SCMV, SrMV Nuclear inclusion proteins eg. viruses as SCMV, SrMV a or b or Nucleoprotein Pseudoubiquitin viruses as SCMV, SrMV Replicase viruses as SCMV, SrMV Bacillus thuringiensis toxins, lepidoptera, aphids, mites, VIP 3, Bacillus cereus toxins, nematodes, whitefly, beetles Photorabdus and Xenorhabdus toxins eg mexican rice borer 3-Hydroxysteroid oxidase lepidoptera, aphids, mites, nematodes, whitefly, beetles eg mexican rice borer Peroxidase lepidoptera, aphids, mites, nematodes, whitefly, beetles eg mexican rice borer Aminopeptidase inhibitors eg. lepidoptera, aphids, mites, Leucine aminopeptidase inhibitor nematodes, whitefly, beetles eg mexican rice borer Lectines lepidoptera, aphids, mites, nematodes, whitefly, beetles eg mexican rice borer Protease Inhibitors eg cystatin, lepidoptera, aphids, mites, patatin, CPTI, virgiferin nematodes, whitefly, beetles eg mexican rice borer ribosome inactivating protein lepidoptera, aphids, mites, nematodes, whitefly, beetles eg mexican rice borer stilbene synthase lepidoptera, aphids, mites, nematodes, whitefly, beetles eg mexican rice borer HMG-CoA reductase lepidoptera, aphids, mites, nematodes, whitefly, beetles eg mexican rice borer Cyst nematode hatching stimulus cyst nematodes Barnase nematodes eg root knot nematodes and cyst nematodes CBI root knot nematodes Antifeeding principles induced nematodes eg root knot nematodes, at a nematode feeding site root cyst nematodes

TABLE A17 Crop Sunflower Effected target or expressed principle(s) Crop phenotype/Tolerance to Acetolactate synthase Sulfonylureas, Imidazolinones, (ALS) Triazolopyrimidines, Pyrimidyloxybenzoates, Phtalides AcetylCoA Carboxylase Aryloxyphenoxyalkanecarboxylic (ACCase) acids, cyclohexanediones Hydroxyphenylpyruvate Isoxazoles such as Isoxaflutol dioxygenase (HPPD) or Isoxachlortol, Triones such as mesotrione or sulcotrione Phosphinothricin acetyl Phosphinothricin transferase O-Methyl transferase altered lignin levels Glutamine synthetase Glufosinate, Bialaphos Adenylosuccinate Lyase Inhibitors of IMP and AMP (ADSL) synthesis Adenylosuccinate Synthase Inhibitors of adenylosuccinate synthesis Anthranilate Synthase Inhibitors of tryptophan syn- thesis and catabolism Nitrilase 3,5-dihalo-4-hydroxy-benzonitriles such as Bromoxynil and Ioxinyl 5-Enolpyruvyl-3phosphoshikimate Glyphosate or sulfosate Synthase (EPSPS) Glyphosate oxidoreductase Glyphosate or sulfosate Protoporphyrinogen oxidase Diphenylethers, cyclic imides, (PROTOX) phenylpyrazoles, pyridin derivatives, phenopylate, oxadiazoles etc. Cytochrome P450 eg. P450 SU1 Xenobiotics and herbicides or selection such as Sulfonylureas Polyphenol oxidase or Polyphenol bacterial or fungal pathogens oxidase antisense Metallothionein bacterial or fungal pathogens Ribonuclease bacterial or fungal pathogens Antifungal polypeptide AlyAFP bacterial or fungal pathogens oxalate oxidase bacterial or fungal pathogens eg sclerotinia glucose oxidase bacterial or fungal pathogens pyrrolnitrin synthesis genes bacterial or fungal pathogens serine/threonine kinases bacterial or fungal pathogens Cecropin B bacterial or fungal pathogens Phenylalanine ammonia lyase bacterial or fungal pathogens (PAL) Cf genes eg. Cf 9 Cf5 Cf4 Cf2 bacterial or fungal pathogens Osmotin bacterial or fungal pathogens Alpha Hordothionin bacterial or fungal pathogens Systemin bacterial or fungal pathogens Polygalacturonase inhibitors bacterial or fungal pathogens Prf regulatory gene bacterial or fungal pathogens phytoalexins bacterial or fungal pathogens B-1,3-glucanase antisense bacterial or fungal pathogens receptor kinase bacterial or fungal pathogens Hypersensitive response bacterial or fungal pathogens eliciting polypeptide Systemic acquires resistance viral, bacterial, fungal, (SAR) genes nematodal pathogens Lytic protein bacterial or fungal pathogens Lysozym bacterial or fungal pathogens Chitinases bacterial or fungal pathogens Barnase bacterial or fungal pathogens Glucanases bacterial or fungal pathogens double stranded ribonuclease viruses as CMV, TMV Coat proteins viruses as CMV, TMV 17 kDa or 60 kDa protein viruses as CMV, TMV Nuclear inclusion proteins eg. viruses as CMV, TMV a or b or Nucleoprotein Pseudoubiquitin viruses as CMV, TMV Replicase viruses as CMV, TMV Bacillus thuringiensis toxins, lepidoptera, aphids, mites, VIP 3, Bacillus cereus toxins, nematodes, whitefly, beetles Photorabdus and Xenorhabdus toxins 3-Hydroxysteroid oxidase lepidoptera, aphids, mites, nematodes, whitefly, beetles Peroxidase lepidoptera, aphids, mites, nematodes, whitefly, beetles Aminopeptidase inhibitors eg. lepidoptera, aphids, mites, Leucine aminopeptidase inhibitor nematodes, whitefly, beetles Lectines lepidoptera, aphids, mites, nematodes, whitefly, beetles Protease Inhibitors eg cystatin, lepidoptera, aphids, mites, patatin, CPTI, virgiferin nematodes, whitefly, beetles ribosome inactivating protein lepidoptera, aphids, mites, nematodes, whitefly, beetles stilbene synthase lepidoptera, aphids, mites, nematodes, whitefly, beetles HMG-CoA reductase lepidoptera, aphids, mites, nematodes, whitefly, beetles Cyst nematode hatching stimulus cyst nematodes Barnase nematodes eg root knot nematodes and cyst nematodes CBI root knot nematodes Antifeeding principles induced nematodes eg root knot nematodes, at a nematode feeding site root cyst nematodes

TABLE A18 Crop Sugarbeet, Beet root Effected target or expressed principle(s) Crop phenotype/Tolerance to Acetolactate synthase Sulfonylureas, Imidazolinones, (ALS) Triazolopyrimidines, Pyrimidyloxybenzoates, Phtalides AcetylCoA Carboxylase Aryloxyphenoxyalkanecarboxylic (ACCase) acids, cyclohexanediones Hydroxyphenylpyruvate Isoxazoles such as Isoxaflutol dioxygenase (HPPD) or Isoxachlortol, Triones such as mesotrione or sulcotrione Phosphinothricin acetyl Phosphinothricin transferase O-Methyl transferase altered lignin levels Glutamine synthetase Glufosinate, Bialaphos Adenylosuccinate Lyase Inhibitors of IMP and AMP (ADSL) synthesis Adenylosuccinate Synthase Inhibitors of adenylosuccinate synthesis Anthranilate Synthase Inhibitors of tryptophan syn- thesis and catabolism Nitrilase 3,5-dihalo-4-hydroxy-benzonitriles such as Bromoxynil and Ioxinyl 5-Enolpyruvyl-3phosphoshikimate Glyphosate or sulfosate Synthase (EPSPS) Glyphosate oxidoreductase Glyphosate or sulfosate Protoporphyrinogen oxidase Diphenylethers, cyclic imides, (PROTOX) phenylpyrazoles, pyridin derivatives, phenopylate, oxadiazoles etc. Cytochrome P450 eg. P450 SU1 Xenobiotics and herbicides or selection such as Sulfonylureas Polyphenol oxidase or Polyphenol bacterial or fungal pathogens oxidase antisense Metallothionein bacterial or fungal pathogens Ribonuclease bacterial or fungal pathogens Antifungal polypeptide AlyAFP bacterial or fungal pathogens oxalate oxidase bacterial or fungal pathogens eg sclerotinia glucose oxidase bacterial or fungal pathogens pyrrolnitrin synthesis genes bacterial or fungal pathogens serine/threonine kinases bacterial or fungal pathogens Cecropin B bacterial or fungal pathogens Phenylalanine ammonia lyase bacterial or fungal pathogens (PAL) Cf genes eg. Cf 9 Cf5 Cf4 Cf2 bacterial or fungal pathogens Osmotin bacterial or fungal pathogens Alpha Hordothionin bacterial or fungal pathogens Systemin bacterial or fungal pathogens Polygalacturonase inhibitors bacterial or fungal pathogens Prf regulatory gene bacterial or fungal pathogens phytoalexins bacterial or fungal pathogens B-1,3-glucanase antisense bacterial or fungal pathogens AX + WIN proteins bacterial or fungal pathogens like Cercospora beticola receptor kinase bacterial or fungal pathogens Hypersensitive response bacterial or fungal pathogens eliciting polypeptide Systemic acquires resistance viral, bacterial, fungal, (SAR) genes nematodal pathogens Lytic protein bacterial or fungal pathogens Lysozym bacterial or fungal pathogens Chitinases bacterial or fungal pathogens Barnase bacterial or fungal pathogens Glucanases bacterial or fungal pathogens double stranded ribonuclease viruses as BNYVV Coat proteins viruses as BNYVV 17 kDa or 60 kDa protein viruses as BNYVV Nuclear inclusion proteins eg. viruses as BNYVV a or b or Nucleoprotein Pseudoubiquitin viruses as BNYVV Replicase viruses as BNYVV Bacillus thuringiensis toxins, lepidoptera, aphids, mites, VIP 3, Bacillus cereus toxins, nematodes, whitefly, beetles, Photorabdus and Xenorhabdus toxins rootflies 3-Hydroxysteroid oxidase lepidoptera, aphids, mites, nematodes, whitefly, beetles, rootflies Peroxidase lepidoptera, aphids, mites, nematodes, whitefly, beetles, rootflies Aminopeptidase inhibitors eg. lepidoptera, aphids, mites, Leucine aminopeptidase inhibitor nematodes, whitefly, beetles, rootflies Lectines lepidoptera, aphids, mites, nematodes, whitefly, beetles, rootflies Protease Inhibitors eg cystatin, lepidoptera, aphids, mites, patatin, CPTI, virgiferin nematodes, whitefly, beetles, rootflies ribosome inactivating protein lepidoptera, aphids, mites, nematodes, whitefly, beetles, rootflies stilbene synthase lepidoptera, aphids, mites, nematodes, whitefly, beetles, rootflies HMG-CoA reductase lepidoptera, aphids, mites, nematodes, whitefly, beetles, rootflies Cyst nematode hatching stimulus cyst nematodes Barnase nematodes eg root knot nematodes and cyst nematodes Beet cyst nematode resistance cyst nematodes locus CBI root knot nematodes Antifeeding principles induced nematodes eg root knot nematodes, at a nematode feeding site root cyst nematodes

The abovementioned animal pests which can be controlled by the method according to the invention include, for example, insects, representatives of the order acarina and representatives of the class nematoda; especially

-   from the order Lepidoptera Acleris spp., Adoxophyes spp., especially     Adoxophyes reticulana; Aegeria spp., Agrotis spp., especially     Agrotis spinifera; Alabama argillaceae, Amylois spp., Anticarsia     gemmatalis, Archips spp., Argyrotaenia spp., Autographa spp.,     Busseola fusca, Cadra cautella, Carposina nipponensis, Chilo spp.,     Choristoneura spp., Clysia ambiguella, Cnaphalocrocis spp.,     Cnephasia spp., Cochylis spp., Coleophora spp., Crocidolomia     binotalis, Cryptophlebia leucotreta, Cydia spp., especially Cydia     pomonella; Diatraea spp., Diparopsis castanea, Earias spp., Ephestia     spp., especially E. Khüniella; Eucosma spp., Eupoecilia ambiguella,     Euproctis spp., Euxoa spp., Grapholita spp., Hedya nubiferana,     Heliothis spp., especially H. Virescens und H. zea; Hellula undalis,     Hyphantria cunea, Keiferia lycopersicella, Leucoptera scitella,     Lithocollethis spp., Lobesiaspp., Lymantria spp., Lyonetia spp.,     Malacosoma spp., Mamestra brassicae, Manduca sexta, Operophtera     spp., Ostrinia nubilalis, Pammene spp., Pandemis spp., Panolis     flammea, Pectinophora spp., Phthorimaea operculella, Pieris rapae,     Pieris spp., Plutella xylostelia, Prays spp., Scirpophaga spp.,     Sesamia spp., Sparganothis spp., Spodopteralittoralis, Synanthedon     spp., Thaumetopoea spp., Tortrix spp., Trichoplusia ni and     Yponomeuta spp.; -   from the order Coleoptera, for example Agriotes spp., Anthonomus     spp., Atomaria linearis, Chaetocnema tibialis, Cosmopolites spp.,     Curculio spp., Dermestes spp., Diabrotica spp., Epilachna spp.,     Eremnus spp., Leptinotarsa decemlineata, Lissorhoptrus spp.,     Melolontha spp., Oryzaephilus spp., Otiorhynchus spp., Phlyctinus     spp., Popillia spp., Psylliodes spp., Rhizopertha spp., Scarabeidae,     Sitophilus spp., Sitotroga spp., Tenebrio spp., Tribolium spp. and     Trogoderma spp.; -   from the order Orthoptera, for example Blatta spp., Blattella spp.,     Gryllotalpa spp., Leucophaea maderae, Locusta spp., Periplaneta spp.     and Schistocerca spp.; -   from the order Isoptera, for example Reticulitermes spp.; -   from the order Psocoptera, for example Liposcelis spp.; -   from the order Anoplura, for example Haematopinus spp., Linognathus     spp., Pediculus spp., Pemphigus spp. and Phylloxera spp.; -   from the order Mallophaga, for example Damalinea spp. and     Trichodectes spp.; -   from the order Thysanoptera, for example Frankliniella spp.,     Hercinothrips spp., Taeniothrips spp., Thrips palmi, Thrips tabaci     and Scirtothrips aurantii;     -   from the order Heteroptera, for example Cimex spp., Distantiella         theobroma, Dysdercus spp., Euchistus spp. Eurygaster spp.         Leptocorisa spp., Nezara spp., Piesma spp., Rhodnius spp.,         Sahlbergella singularis, Scotinophara spp. and Triatoma spp.; -   from the order Homoptera, for example Aleurothrixus floccosus,     Aleyrodes brassicae, Aonidiella aurantii, Aphididae, Aphis     craccivora, A. fabae, A. gosypii; Aspidiotus spp., Bemisia tabaci,     Ceroplaster spp., Chrysomphalus aonidium, Chrysomphalus     dictyospermi, Coccus hesperidum, Empoasca spp., Eriosoma lanigerum,     Erythroneura spp., Gascardia spp., Laodelphax spp., Lecanium corni,     Lepidosaphes spp., Macrosiphus spp., Myzus spp., especially M.     persicae; Nephotettix spp., especially N. cincticeps; Nilaparvata     spp., especially N. lugens; Paratoria spp., Pemphigus spp.,     Planococcus spp., Pseudaulacaspis spp., Pseudococcus spp.,     especially P. Fragilis, P. citriculus and P. comstocki; Psylla spp.,     especially P. pyri; Pulvinaria aethiopica, Quadraspidiotus spp.,     Rhopalosiphum spp., Saissetia spp., Scaphoideus spp., Schizaphis     spp., Sitobion spp., Trialeurodes vaporariorum, Trioza erytreae and     Unaspis citri; -   from the order Hymenoptera, for example Acromyrmex, Atta spp.,     Cephus spp., Diprion spp., Diprionidae, Gilpinia polytoma,     Hoplocampa spp., Lasius spp., Monomorium pharaonis, Neodiprion spp.,     Solenopsis spp. and Vespa spp.; -   from the order Diptera, for example Aedes spp., Antherigona soccata,     Bibio hortulanus, Calliphora erythrocephala, Ceratitis spp.,     Chrysomyia spp., Culex spp., Cuterebra spp., Dacus spp., Drosophila     melanogaster, Fannia spp., Gastrophilus spp., Glossina spp.,     Hypoderma spp., Hyppobosca spp., Liriomyza spp., Lucilia spp.,     Melanagromyza spp., Musca spp., Oestrus spp., Orseolia spp.,     Oscinella frit, Pegomyia hyoscyami, Phorbia spp., Rhagoletis     pomonella, Sciara spp., Stomoxys spp., Tabanus spp., Tannia spp. and     Tipula spp.; -   from the order Siphonaptera, for example Ceratophyllus spp. and     Xenopsylla cheopis; -   from the order Thysanura, for example Lepisma saccharina and -   from the order Acarina, for example Acarus siro, Aceria sheldoni;     Aculus spp., especially A. schlechtendali; Amblyomma spp., Argas     spp., Boophilus spp., Brevipalpus spp., especially B. californicus     and B. phoenicis; Bryobia praetiosa, Calipitrimerus spp., Chorioptes     spp., Dermanyssus gallinae, Eotetranychus spp., especially E.     carpini and E. orientalis; Eriophyes spp., especially E. vitis;     Hyalomma spp., Ixodes spp., Olygonychus pratensis, Ornithodoros     spp., Panonychus spp., especially P. ulmi and P. citri;     Phyllocoptruta spp., especially P. oleivora; Polyphagotarsonemus     spp., especially P. latus; Psoroptes spp., Rhipicephalus spp.,     Rhizoglyphus spp., Sarcoptes spp., Tarsonemus spp. and Tetranychus     spp., in particular T. urticae, T. cinnabarinus and T. Kanzawai;     Representatives of the Class Nematoda; -   (1) nematodes selected from the group consisting of root knot     nematodes, cyst-forming nematodes, stem eelworms and foliar     nematodes; -   (2) nematodes selected from the group consisting of Anguina spp.;     Aphelenchoides spp.; Ditylenchus spp.; Globodera spp., for example     Globodera rostochiensis; Heterodera spp., for example Heterodera     avenae, Heterodera glycines, Heterodera schachtii or Heterodera     trifolii; Longidorus spp.; Meloidogyne spp., for example Meloidogyne     incognita or Meloidogyne javanica; Pratylenchus, for example     Pratylenchus neglectans or Pratylenchus penetrans; Radopholus spp.,     for example Radopholus similis; Trichodorus spp.; Tylenchulus, for     example Tylenchulus semipenetrans; and Xiphinema spp.; or -   (3) nematodes selected from the group consisting of Heterodera spp.,     for example Heterodera glycines; and Meloidogyne spp., for example     Meloidogyne incognita.

The method according to the invention allows pests of the abovementioned type to be controlled, i.e. contained or destroyed, which occur, in particular, on transgenic plants, mainly useful plants and ornamentals in agriculture, in horticulture and in forests, or on parts, such as fruits, flowers, foliage, stalks, tubers or roots, of such plants, the protection against these pests in some cases even extending to plant parts which form at a later point in time.

The method according to the invention can be employed advantageously for controlling pests in rice, cereals such as maize or sorghum; in fruit, for example stone fruit, pome fruit and soft fruit such as apples, pears, plums, peaches, almonds, cherries or berries, for example strawberries, raspberries and blackberries; in legumes such as beans, lentils, peas or soya beans; in oil crops such as oilseed rape, mustard, poppies, olives, sunflowers, coconuts, castor-oil plants, cacao or peanuts; in the marrow family such as pumpkins, cucumbers or melons; in fibre plants such as cotton, flax, hemp or jute; in citrus fruit such as oranges, lemons, grapefruit or tangerines; in vegetables such as spinach, lettuce, asparagus, cabbage species, carrots, onions, tomatoes, potatoes, beet or capsicum; in the laurel family such as avocado, Cinnamonium or camphor; or in tobacco, nuts, coffee, egg plants, sugar cane, tea, pepper, grapevines, hops, the banana family, latex plants or ornamentals, mainly in maize, rice, cereals, soya beans, tomatoes, cotton, potatoes, sugar beet, rice and mustard; in particular in cotton, rice, soya beans, potatoes and maize.

It has emerged that the method according to the invention is valuable preventatively and/or curatively in the field of pest control even at low use concentrations of the pesticidal composition and that a very favourable biocidal spectrum is achieved thereby. Combined with a favourable compatibility of the composition employed with warm-blooded species, fish and plants, the method according to the invention can be employed against all or individual developmental stages of normally-sensitive, but also of normally-resistant, animal pests such as insects and representatives of the order Acarina, depending on the species of the transgenic crop plant to be protected from attack by pests. The insecticidal and/or acaricidal effect of the method according to the invention may become apparent directly, i.e. in a destruction of the pests which occurs immediately or only after some time has elapsed, for example, during ecdysis, or indirectly, for example as a reduced oviposition and/or hatching rate, the good action corresponding to a destruction rate (mortality) of at least 40 to 50%.

Depending on the intended aims and the prevailing circumstances, the pesticides within the scope of invention, which are known per se, are emulsifiable concentrates, suspension concentrates, directly sprayable or dilutable solutions, spreadable pastes, dilute emulsions, wettable powders, soluble powders, dispersible powders, wettable powders, dusts, granules or encapsulations in polymeric substances which comprise a nitroimino- or nitroguanidino-compound.

The active ingredients are employed in these compositions together with at least one of the auxiliaries conventionally used in art of formulation, such as extenders, for example solvents or solid carriers, or such as surface-active compounds (surfactants).

Formulation auxiliaries which are used are, for example, solid carriers, solvents, stabilizers, “slow release” auxiliaries, colourants and, if appropriate, surface-active substances (surfactants). Suitable carriers and auxiliaries are all those substances which are conventionally used for crop protection products. Suitable auxiliaries such as solvents, solid carriers, surface-active compounds, non-ionic surfactants, cationic surfactants, anionic surfactants and other auxiliaries in the compositions employed according to the invention are, for example, those which have been described in EP-A-736 252.

These compositions for controlling pests can be formulated, for example, as wettable powders, dusts, granules, solutions, emulsifiable concentrates, emulsions, suspension concentrates or aerosols. For example, the compositions are of the type described in EP-A-736 252.

The action of the compositions within the scope of invention which comprise a nitroimino- or nitroguanidino-compound can be extended substantially and adapted to prevailing circumstances by adding other insecticidally, acaricidally and/or fungicidally active ingredients. Suitable examples of added active ingredients are representatives of the following classes of active ingredients: organophosphorous compounds, nitrophenols and derivatives, formamidines, ureas, carbamates, pyrethroids, chlorinated hydrocarbons; especially preferred components in mixtures are, for example, abamectin, emamectin, spinosad, pymetrozine, fenoxycarb, Ti-435, fipronil, pyriproxyfen, diazinon or diafenthiuron.

As a rule, the compositions within the scope of invention comprise 0.1 to 99%, in particular 0.1 to 95%, of a nitroimino- or nitroguanidino-compound and 1 to 99.9%, in particular 5 to 99.9%, of—at least—one solid or liquid auxiliary, it being possible, as a rule, for 0 to 25%, in particular 0.1 to 20%, of the compositions to be surfactants (% in each case meaning percent by weight). While concentrated compositions are more preferred as commercial products, the end user will, as a rule, use dilute compositions which have considerably lower concentrations of active ingredient.

The compositions according to the invention may also comprise other solid or liquid auxiliaries, such as stabilisers, for example epoxidized or unepoxidized vegetable oils (for example epoxidized coconut oil, rapeseed oil or soya bean oil), antifoams, for example silicone oil, preservatives, viscosity regulators, binders and/or tackifiers, and also fertilizers or other active ingredients for achieving specific effects, for example, bactericides, fungicides, nematicides, molluscicides or herbicides.

The compositions according to the invention are produced in a known manner, for example prior to mixing with the auxiliary/auxiliaries by grinding, screening and/or compressing the active ingredient, for example to give a particular particle size, and by intimately mixing and/or grinding the active ingredient with the auxiliary/auxiliaries.

The method according to the invention for controlling pests of the abovementioned type is carried out in a manner known per se to those skilled in the art, depending on the intended aims and prevailing circumstances, that is to say by spraying, wetting, atomizing, dusting, brushing on, seed dressing, scattering or pouring of the composition. Typical use concentrations are between 0.1 and 1000 ppm, preferably between 0.1 and 500 ppm of active ingredient. The application rate may vary within wide ranges and depends on the soil constitution, the type of application (foliar application; seed dressing; application in the seed furrow), the transgenic crop plant, the pest to be controlled, the climatic circumstances prevailing in each case, and other factors determined by the type of application, timing of application and target crop. The application rates per hectare are generally 1 to 2000 g of nitroimino- or nitroguanidino-compound per hectare, in particular 10 to 1000 g/ha, preferably 10 to 500 g/ha, especially preferably 10 to 200 g/ha.

A preferred type of application in the field of crop protection within the scope of invention is application to the foliage of the plants (foliar application), it being possible to adapt frequency and rate of application to the risk of infestation with the pest in question. However, the active ingredient may also enter into the plants via the root system (systemic action), by drenching the site of the plants with a liquid composition or by incorporating the active ingredient in solid form into the site of the plants, for example into the soil, for example in the form of granules (soil application). In the case of paddy rice crops, such granules may be metered into the flooded paddy field.

The compositions according to invention are also suitable for protecting propagation material of transgenic plants, for example seed, such as fruits, tubers or kernels, or plant cuttings, from animal pests, in particular insects and representatives of the order Acarina.

The propagation material can be treated with the composition prior to application, for example, seed being dressed prior to sowing. The active ingredient may also be applied to seed kernels (coating), either by soaking the kernels in a liquid composition or by coating them with a solid composition. The composition may also be applied to the site of application when applying the propagation material, for example into the seed furrow during sowing. These treatment methods for plant propagation material and the plant propagation material treated thus are a further subject of the invention.

Examples of formulations of nitroimino- or nitroguanidino-compounds which can be used in the method according to the invention, for instance solutions, granules, dusts, sprayable powders, emulsion concentrates, coated granules and suspension concentrates, are of the type as has been described in, for example, EP-A-580 553, Examples F1 to F10.

BIOLOGICAL EXAMPLES

TABLE B AP Control of B.1 CryIA(a) Adoxophyes spp. B.2 CryIA(a) Agrotis spp. B.3 CryIA(a) Alabama argillaceae B.4 CryIA(a) Anticarsia gemmatalis B.5 CryIA(a) Chilo spp. B.6 CryIA(a) Clysia ambiguella B.7 CryIA(a) Crocidolomia binotalis B.8 CryIA(a) Cydia spp. B.9 CryIA(a) Diparopsis castanea B.10 CryIA(a) Earias spp. B.11 CryIA(a) Ephestia spp. B.12 CryIA(a) Heliothis spp. B.13 CryIA(a) Hellula undalis B.14 CryIA(a) Keiferia lycopersicella B.15 CryIA(a) Leucoptera scitella B.16 CryIA(a) Lithocollethis spp. B.17 CryIA(a) Lobesia botrana B.18 CryIA(a) Ostrinia nubilalis B.19 CryIA(a) Pandemis spp. B.20 CryIA(a) Pectinophora gossyp. B.21 CryIA(a) Phyllocnistis citrella B.22 CryIA(a) Pieris spp. B.23 CryIA(a) Plutella xylostella B.24 CryIA(a) Scirpophaga spp. B.25 CryIA(a) Sesamia spp. B.26 CryIA(a) Sparganothis spp. B.27 CryIA(a) Spodoptera spp. B.28 CryIA(a) Tortrix spp. B.29 CryIA(a) Trichoplusia ni B.30 CryIA(a) Agriotes spp. B.31 CryIA(a) Anthonomus grandis B.32 CryIA(a) Curculio spp. B.33 CryIA(a) Diabrotica balteata B.34 CryIA(a) Leptinotarsa spp. B.35 CryIA(a) Lissorhoptrus spp. B.36 CryIA(a) Otiorhynchus spp. B.37 CryIA(a) Aleurothrixus spp. B.38 CryIA(a) Aleyrodes spp. B.39 CryIA(a) Aonidiella spp. B.40 CryIA(a) Aphididae spp. B.41 CryIA(a) Aphis spp. B.42 CryIA(a) Bemisia tabaci B.43 CryIA(a) Empoasca spp. B.44 CryIA(a) Mycus spp. B.45 CryIA(a) Nephotettix spp. B.46 CryIA(a) Nilaparvata spp. B.47 CryIA(a) Pseudococcus spp. B.48 CryIA(a) Psylla spp. B.49 CryIA(a) Quadraspidiotus spp. B.50 CryIA(a) Schizaphis spp. B.51 CryIA(a) Trialeurodes spp. B.52 CryIA(a) Lyriomyza spp. B.53 CryIA(a) Oscinella spp. B.54 CryIA(a) Phorbia spp. B.55 CryIA(a) Frankliniella spp. B.56 CryIA(a) Thrips spp. B.57 CryIA(a) Scirtothrips aurantii B.58 CryIA(a) Aceria spp. B.59 CryIA(a) Aculus spp. B.60 CryIA(a) Brevipalpus spp. B.61 CryIA(a) Panonychus spp. B.62 CryIA(a) Phyllocoptruta spp. B.63 CryIA(a) Tetranychus spp. B.64 CryIA(a) Heterodera spp. B.65 CryIA(a) Meloidogyne spp. B.66 CryIA(b) Adoxophyes spp. B.67 CryIA(b) Agrotis spp. B.68 CryIA(b) Alabama argillaceae B.69 CryIA(b) Anticarsia gemmatalis B.70 CryIA(b) Chilo spp. B.71 CryIA(b) Clysia ambiguella B.72 CryIA(b) Crocidolomia binotalis B.73 CryIA(b) Cydia spp. B.74 CryIA(b) Diparopsis castanea B.75 CryIA(b) Earias spp. B.76 CryIA(b) Ephestia spp. B.77 CryIA(b) Heliothis spp. B.78 CryIA(b) Hellula undalis B.79 CryIA(b) Keiferia lycopersicella B.80 CryIA(b) Leucoptera scitella B.81 CryIA(b) Lithocollethis spp. B.82 CryIA(b) Lobesia botrana B.83 CryIA(b) Ostrinia nubilalis B.84 CryIA(b) Pandemis spp. B.85 CryIA(b) Pectinophora gossyp. B.86 CryIA(b) Phyllocnistis citrella B.87 CryIA(b) Pieris spp. B.88 CryIA(b) Plutella xylostella B.89 CryIA(b) Scirpophaga spp. B.90 CryIA(b) Sesamia spp. B.91 CryIA(b) Sparganothis spp. B.92 CryIA(b) Spodoptera spp. B.93 CryIA(b) Tortrix spp. B.94 CryIA(b) Trichoplusia ni B.95 CryIA(b) Agriotes spp. B.96 CryIA(b) Anthonomus grandis B.97 CryIA(b) Curculio spp. B.98 CryIA(b) Diabrotica balteata B.99 CryIA(b) Leptinotarsa spp. B.100 CryIA(b) Lissorhoptrus spp. B.101 CryIA(b) Otiorhynchus spp. B.102 CryIA(b) Aleurothrixus spp. B.103 CryIA(b) Aleyrodes spp. B.104 CryIA(b) Aonidiella spp. B.105 CryIA(b) Aphididae spp. B.106 CryIA(b) Aphis spp. B.107 CryIA(b) Bemisia tabaci B.108 CryIA(b) Empoasca spp. B.109 CryIA(b) Mycus spp. B.110 CryIA(b) Nephotettix spp. B.111 CryIA(b) Nilaparvata spp. B.112 CryIA(b) Pseudococcus spp. B.113 CryIA(b) Psylla spp. B.114 CryIA(b) Quadraspidiotus spp. B.115 CryIA(b) Schizaphis spp. B.116 CryIA(b) Trialeurodes spp. B.117 CryIA(b) Lyriomyza spp. B.118 CryIA(b) Oscinella spp. B.119 CryIA(b) Phorbia spp. B.120 CryIA(b) Frankliniella spp. B.121 CryIA(b) Thrips spp. B.122 CryIA(b) Scirtothrips aurantii B.123 CryIA(b) Aceria spp. B.124 CryIA(b) Aculus spp. B.125 CryIA(b) Brevipalpus spp. B.126 CryIA(b) Panonychus spp. B.127 CryIA(b) Phyllocoptruta spp. B.128 CryIA(b) Tetranychus spp. B.129 CryIA(b) Heterodera spp. B.130 CryIA(b) Meloidogyne spp. B.131 CryIA(c) Adoxophyes spp. B.132 CryIA(c) Agrotis spp. B.133 CryIA(c) Alabama argillaceae B.134 CryIA(c) Anticarsia gemmatalis B.135 CryIA(c) Chilo spp. B.136 CryIA(c) Clysia ambiguella B.137 CryIA(c) Crocidolomia binotalis B.138 CryIA(c) Cydia spp. B.139 CryIA(c) Diparopsis castanea B.140 CryIA(c) Earias spp. B.141 CryIA(c) Ephestia spp. B.142 CryIA(c) Heliothis spp. B.143 CryIA(c) Hellula undalis B.144 CryIA(c) Keiferia lycopersicella B.145 CryIA(c) Leucoptera scitella B.146 CryIA(c) Lithocollethis spp. B.147 CryIA(c) Lobesia botrana B.148 CryIA(c) Ostrinia nubilalis B.149 CryIA(c) Pandemis spp. B.150 CryIA(c) Pectinophora gossypiella. B.151 CryIA(c) Phyllocnistis citrella B.152 CryIA(c) Pieris spp. B.153 CryIA(c) Plutella xylostella B.154 CryIA(c) Scirpophaga spp. B.155 CryIA(c) Sesamia spp. B.156 CryIA(c) Sparganothis spp. B.157 CryIA(c) Spodoptera spp. B.158 CryIA(c) Tortrix spp. B.159 CryIA(c) Trichoplusia ni B.160 CryIA(c) Agriotes spp. B.161 CryIA(c) Anthonomus grandis B.162 CryIA(c) Curculio spp. B.163 CryIA(c) Diabrotica balteata B.164 CryIA(c) Leptinotarsa spp. B.165 CryIA(c) Lissorhoptrus spp. B.166 CryIA(c) Otiorhynchus spp. B.167 CryIA(c) Aleurothrixus spp. B.168 CryIA(c) Aleyrodes spp. B.169 CryIA(c) Aonidiella spp. B.170 CryIA(c) Aphididae spp. B.171 CryIA(c) Aphis spp. B.172 CryIA(c) Bemisia tabaci B.173 CryIA(c) Empoasca spp. B.174 CryIA(c) Mycus spp. B.175 CryIA(c) Nephotettix spp. B.176 CryIA(c) Nilaparvata spp. B.177 CryIA(c) Pseudococcus spp. B.178 CryIA(c) Psylla spp. B.179 CryIA(c) Quadraspidiotus spp. B.180 CryIA(c) Schizaphis spp. B.181 CryIA(c) Trialeurodes spp. B.182 CryIA(c) Lyriomyza spp. B.183 CryIA(c) Oscinella spp. B.184 CryIA(c) Phorbia spp. B.185 CryIA(c) Frankliniella spp. B.186 CryIA(c) Thrips spp. B.187 CryIA(c) Scirtothrips aurantii B.188 CryIA(c) Aceria spp. B.189 CryIA(c) Aculus spp. B.190 CryIA(c) Brevipalpus spp. B.191 CryIA(c) Panonychus spp. B.192 CryIA(c) Phyllocoptruta spp. B.193 CryIA(c) Tetranychus spp. B.194 CryIA(c) Heterodera spp. B.195 CryIA(c) Meloidogyne spp. B.196 CryIIA Adoxophyes spp. B.197 CryIIA Agrotis spp. B.198 CryIIA Alabama argillaceae B.199 CryIIA Anticarsia gemmatalis B.200 CryIIA Chilo spp. B.201 CryIIA Clysia ambiguella B.202 CryIIA Crocidolomia binotalis B.203 CryIIA Cydia spp. B.204 CryIIA Diparopsis castanea B.205 CryIIA Earias spp. B.206 CryIIA Ephestia spp. B.207 CryIIA Heliothis spp. B.208 CryIIA Hellula undalis B.209 CryIIA Keiferia lycopersicella B.210 CryIIA Leucoptera scitella B.211 CryIIA Lithocollethis spp. B.212 CryIIA Lobesia botrana B.213 CryIIA Ostrinia nubilalis B.214 CryIIA Pandemis spp. B.215 CryIIA Pectinophora gossyp. B.216 CryIIA Phyllocnistis citrella B.217 CryIIA Pieris spp. B.218 CryIIA Plutella xylostella B.219 CryIIA Scirpophaga spp. B.220 CryIIA Sesamia spp. B.221 CryIIA Sparganothis spp. B.222 CryIIA Spodoptera spp. B.223 CryIIA Tortrix spp. B.224 CryIIA Trichoplusia ni B.225 CryIIA Agriotes spp. B.226 CryIIA Anthonomus grandis B.227 CryIIA Curculio spp. B.228 CryIIA Diabrotica balteata B.229 CryIIA Leptinotarsa spp. B.230 CryIIA Lissorhoptrus spp. B.231 CryIIA Otiorhynchus spp. B.232 CryIIA Aleurothrixus spp. B.233 CryIIA Aleyrodes spp. B.234 CryIIA Aonidiella spp. B.235 CryIIA Aphididae spp. B.236 CryIIA Aphis spp. B.237 CryIIA Bemisia tabaci B.238 CryIIA Empoasca spp. B.239 CryIIA Mycus spp. B.240 CryIIA Nephotettix spp. B.241 CryIIA Nilaparvata spp. B.242 CryIIA Pseudococcus spp. B.243 CryIIA Psylla spp. B.244 CryIIA Quadraspidiotus spp. B.245 CryIIA Schizaphis spp. B.246 CryIIA Trialeurodes spp. B.247 CryIIA Lyriomyza spp. B.248 CryIIA Oscinella spp. B.249 CryIIA Phorbia spp. B.250 CryIIA Frankliniella spp. B.251 CryIIA Thrips spp. B.252 CryIIA Scirtothrips aurantii B.253 CryIIA Aceria spp. B.254 CryIIA Aculus spp. B.255 CryIIA Brevipalpus spp. B.256 CryIIA Panonychus spp. B.257 CryIIA Phyllocoptruta spp. B.258 CryIIA Tetranychus spp. B.259 CryIIA Heterodera spp. B.260 CryIIA Meloidogyne spp. B.261 CryIIIA Adoxophyes spp. B.262 CryIIIA Agrotis spp. B.263 CryIIIA Alabama argillaceae B.264 CryIIIA Anticarsia gemmatalis B.265 CryIIIA Chilo spp. B.266 CryIIIA Clysia ambiguella B.267 CryIIIA Crocidolomia binotalis B.268 CryIIIA Cydia spp. B.269 CryIIIA Diparopsis castanea B.270 CryIIIA Earias spp. B.271 CryIIIA Ephestia spp. B.272 CryIIIA Heliothis spp. B.273 CryIIIA Hellula undalis B.274 CryIIIA Keiferia lycopersicella B.275 CryIIIA Leucoptera scitella B.276 CryIIIA Lithocollethis spp. B.277 CryIIIA Lobesia botrana B.278 CryIIIA Ostrinia nubilalis B.279 CryIIIA Pandemis spp. B.280 CryIIIA Pectinophora gossyp. B.281 CryIIIA Phyllocnistis citrella B.282 CryIIIA Pieris spp. B.283 CryIIIA Plutella xylostella B.284 CryIIIA Scirpophaga spp. B.285 CryIIIA Sesamia spp. B.286 CryIIIA Sparganothis spp. B.287 CryIIIA Spodoptera spp. B.288 CryIIIA Tortrix spp. B.289 CryIIIA Trichoplusia ni B.290 CryIIIA Agriotes spp. B.291 CryIIIA Anthonomus grandis B.292 CryIIIA Curculio spp. B.293 CryIIIA Diabrotica balteata B.294 CryIIIA Leptinotarsa spp. B.295 CryIIIA Lissorhoptrus spp. B.296 CryIIIA Otiorhynchus spp. B.297 CryIIIA Aleurothrixus spp. B.298 CryIIIA Aleyrodes spp. B.299 CryIIIA Aonidiella spp. B.300 CryIIIA Aphididae spp. B.301 CryIIIA Aphis spp. B.302 CryIIIA Bemisia tabaci B.303 CryIIIA Empoasca spp. B.304 CryIIIA Mycus spp. B.305 CryIIIA Nephotettix spp. B.306 CryIIIA Nilaparvata spp. B.307 CryIIIA Pseudococcus spp. B.308 CryIIIA Psylla spp. B.309 CryIIIA Quadraspidiotus spp. B.310 CryIIIA Schizaphis spp. B.311 CryIIIA Trialeurodes spp. B.312 CryIIIA Lyriomyza spp. B.313 CryIIIA Oscinella spp. B.314 CryIIIA Phorbia spp. B.315 CryIIIA Frankliniella spp. B.316 CryIIIA Thrips spp. B.317 CryIIIA Scirtothrips aurantii B.318 CryIIIA Aceria spp. B.319 CryIIIA Aculus spp. B.320 CryIIIA Brevipalpus spp. B.321 CryIIIA Panonychus spp. B.322 CryIIIA Phyllocoptruta spp. B.323 CryIIIA Tetranychus spp. B.324 CryIIIA Heterodera spp. B.325 CryIIIA Meloidogyne spp. B.326 CryIIIB2 Adoxophyes spp. B.327 CryIIIB2 Agrotis spp. B.328 CryIIIB2 Alabama argillaceae B.329 CryIIIB2 Anticarsia gemmatalis B.330 CryIIIB2 Chilo spp. B.331 CryIIIB2 Clysia ambiguella B.332 CryIIIB2 Crocidolomia binotalis B.333 CryIIIB2 Cydia spp. B.334 CryIIIB2 Diparopsis castanea B.335 CryIIIB2 Earias spp. B.336 CryIIIB2 Ephestia spp. B.337 CryIIIB2 Heliothis spp. B.338 CryIIIB2 Hellula undalis B.339 CryIIIB2 Keiferia lycopersicella B.340 CryIIIB2 Leucoptera scitella B.341 CryIIIB2 Lithocollethis spp. B.342 CryIIIB2 Lobesia botrana B.343 CryIIIB2 Ostrinia nubilalis B.344 CryIIIB2 Pandemis spp. B.345 CryIIIB2 Pectinophora gossyp. B.346 CryIIIB2 Phyllocnistis citrella B.347 CryIIIB2 Pieris spp. B.348 CryIIIB2 Plutella xylostella B.349 CryIIIB2 Scirpophaga spp. B.350 CryIIIB2 Sesamia spp. B.351 CryIIIB2 Sparganothis spp. B.352 CryIIIB2 Spodoptera spp. B.353 CryIIIB2 Tortrix spp. B.354 CryIIIB2 Trichoplusia ni B.355 CryIIIB2 Agriotes spp. B.356 CryIIIB2 Anthonomus grandis B.357 CryIIIB2 Curculio spp. B.358 CryIIIB2 Diabrotica balteata B.359 CryIIIB2 Leptinotarsa spp. B.360 CryIIIB2 Lissorhoptrus spp. B.361 CryIIIB2 Otiorhynchus spp. B.362 CryIIIB2 Aleurothrixus spp. B.363 CryIIIB2 Aleyrodes spp. B.364 CryIIIB2 Aonidiella spp. B.365 CryIIIB2 Aphididae spp. B.366 CryIIIB2 Aphis spp. B.367 CryIIIB2 Bemisia tabaci B.368 CryIIIB2 Empoasca spp. B.369 CryIIIB2 Mycus spp. B.370 CryIIIB2 Nephotettix spp. B.371 CryIIIB2 Nilaparvata spp. B.372 CryIIIB2 Pseudococcus spp. B.373 CryIIIB2 Psylla spp. B.374 CryIIIB2 Quadraspidiotus spp. B.375 CryIIIB2 Schizaphis spp. B.376 CryIIIB2 Trialeurodes spp. B.377 CryIIIB2 Lyriomyza spp. B.378 CryIIIB2 Oscinella spp. B.379 CryIIIB2 Phorbia spp. B.380 CryIIIB2 Frankliniella spp. B.381 CryIIIB2 Thrips spp. B.382 CryIIIB2 Scirtothrips aurantii B.383 CryIIIB2 Aceria spp. B.384 CryIIIB2 Aculus spp. B.385 CryIIIB2 Brevipalpus spp. B.386 CryIIIB2 Panonychus spp. B.387 CryIIIB2 Phyllocoptruta spp. B.388 CryIIIB2 Tetranychus spp. B.389 CryIIIB2 Heterodera spp. B.390 CryIIIB2 Meloidogyne spp. B.391 CytA Adoxophyes spp. B.392 CytA Agrotis spp. B.393 CytA Alabama argillaceae B.394 CytA Anticarsia gemmatalis B.395 CytA Chilo spp. B.396 CytA Clysia ambiguella B.397 CytA Crocidolomia binotalis B.398 CytA Cydia spp. B.399 CytA Diparopsis castanea B.400 CytA Earias spp. B.401 CytA Ephestia spp. B.402 CytA Heliothis spp. B.403 CytA Hellula undalis B.404 CytA Keiferia lycopersicella B.405 CytA Leucoptera scitella B.406 CytA Lithocollethis spp. B.407 CytA Lobesia botrana B.408 CytA Ostrinia nubilalis B.409 CytA Pandemis spp. B.410 CytA Pectinophora gossyp. B.411 CytA Phyllocnistis citrella B.412 CytA Pieris spp. B.413 CytA Plutella xylostella B.414 CytA Scirpophaga spp. B.415 CytA Sesamia spp. B.416 CytA Sparganothis spp. B.417 CytA Spodoptera spp. B.418 CytA Tortrix spp. B.419 CytA Trichoplusia ni B.420 CytA Agriotes spp. B.421 CytA Anthonomus grandis B.422 CytA Curculio spp. B.423 CytA Diabrotica balteata B.424 CytA Leptinotarsa spp. B.425 CytA Lissorhoptrus spp. B.426 CytA Otiorhynchus spp. B.427 CytA Aleurothrixus spp. B.428 CytA Aleyrodes spp. B.429 CytA Aonidiella spp. B.430 CytA Aphididae spp. B.431 CytA Aphis spp. B.432 CytA Bemisia tabaci B.433 CytA Empoasca spp. B.434 CytA Mycus spp. B.435 CytA Nephotettix spp. B.436 CytA Nilaparvata spp. B.437 CytA Pseudococcus spp. B.438 CytA Psylla spp. B.439 CytA Quadraspidiotus spp. B.440 CytA Schizaphis spp. B.441 CytA Trialeurodes spp. B.442 CytA Lyriomyza spp. B.443 CytA Oscinella spp. B.444 CytA Phorbia spp. B.445 CytA Frankliniella spp. B.446 CytA Thrips spp. B.447 CytA Scirtothrips aurantii B.448 CytA Aceria spp. B.449 CytA Aculus spp. B.450 CytA Brevipalpus spp. B.451 CytA Panonychus spp. B.452 CytA Phyllocoptruta spp. B.453 CytA Tetranychus spp. B.454 CytA Heterodera spp. B.455 CytA Meloidogyne spp. B.456 VIP3 Adoxophyes spp. B.457 VIP3 Agrotis spp. B.458 VIP3 Alabama argillaceae B.459 VIP3 Anticarsia gemmatalis B.460 VIP3 Chilo spp. B.461 VIP3 Clysia ambiguella B.462 VIP3 Crocidolomia binotalis B.463 VIP3 Cydia spp. B.464 VIP3 Diparopsis castanea B.465 VIP3 Earias spp. B.466 VIP3 Ephestia spp. B.467 VIP3 Heliothis spp. B.468 VIP3 Hellula undalis B.469 VIP3 Keiferia lycopersicella B.470 VIP3 Leucoptera scitella B.471 VIP3 Lithocollethis spp. B.472 VIP3 Lobesia botrana B.473 VIP3 Ostrinia nubilalis B.474 VIP3 Pandemis spp. B.475 VIP3 Pectinophora gossyp. B.476 VIP3 Phyllocnistis citrella B.477 VIP3 Pieris spp. B.478 VIP3 Plutella xylostella B.479 VIP3 Scirpophaga spp. B.480 VIP3 Sesamia spp. B.481 VIP3 Sparganothis spp. B.482 VIP3 Spodoptera spp. B.483 VIP3 Tortrix spp. B.484 VIP3 Trichoplusia ni B.485 VIP3 Agriotes spp. B.486 VIP3 Anthonomus grandis B.487 VIP3 Curculio spp. B.488 VIP3 Diabrotica balteata B.489 VIP3 Leptinotarsa spp. B.490 VIP3 Lissorhoptrus spp. B.491 VIP3 Otiorhynchus spp. B.492 VIP3 Aleurothrixus spp. B.493 VIP3 Aleyrodes spp. B.494 VIP3 Aonidiella spp. B.495 VIP3 Aphididae spp. B.496 VIP3 Aphis spp. B.497 VIP3 Bemisia tabaci B.498 VIP3 Empoasca spp. B.499 VIP3 Mycus spp. B.500 VIP3 Nephotettix spp. B.501 VIP3 Nilaparvata spp. B.502 VIP3 Pseudococcus spp. B.503 VIP3 Psylla spp. B.504 VIP3 Quadraspidiotus spp. B.505 VIP3 Schizaphis spp. B.506 VIP3 Trialeurodes spp. B.507 VIP3 Lyriomyza spp. B.508 VIP3 Oscinella spp. B.509 VIP3 Phorbia spp. B.510 VIP3 Frankliniella spp. B.511 VIP3 Thrips spp. B.512 VIP3 Scirtothrips aurantii B.513 VIP3 Aceria spp. B.514 VIP3 Aculus spp. B.515 VIP3 Brevipalpus spp. B.516 VIP3 Panonychus spp. B.517 VIP3 Phyllocoptruta spp. B.518 VIP3 Tetranychus spp. B.519 VIP3 Heterodera spp. B.520 VIP3 Meloidogyne spp. B.521 GL Adoxophyes spp. B.522 GL Agrotis spp. B.523 GL Alabama argillaceae B.524 GL Anticarsia gemmatalis B.525 GL Chilo spp. B.526 GL Clysia ambiguella B.527 GL Crocidolomia binotalis B.528 GL Cydia spp. B.529 GL Diparopsis castanea B.530 GL Earias spp. B.531 GL Ephestia spp. B.532 GL Heliothis spp. B.533 GL Hellula undalis B.534 GL Keiferia lycopersicella B.535 GL Leucoptera scitella B.536 GL Lithocollethis spp. B.537 GL Lobesia botrana B.538 GL Ostrinia nubilalis B.539 GL Pandemis spp. B.540 GL Pectinophora gossyp. B.541 GL Phyllocnistis citrella B.542 GL Pieris spp. B.543 GL Plutella xylostella B.544 GL Scirpophaga spp. B.545 GL Sesamia spp. B.546 GL Sparganothis spp. B.547 GL Spodoptera spp. B.548 GL Tortrix spp. B.549 GL Trichoplusia ni B.550 GL Agriotes spp. B.551 GL Anthonomus grandis B.552 GL Curculio spp. B.553 GL Diabrotica balteata B.554 GL Leptinotarsa spp. B.555 GL Lissorhoptrus spp. B.556 GL Otiorhynchus spp. B.557 GL Aleurothrixus spp. B.558 GL Aleyrodes spp. B.559 GL Aonidiella spp. B.560 GL Aphididae spp. B.561 GL Aphis spp. B.562 GL Bemisia tabaci B.563 GL Empoasca spp. B.564 GL Mycus spp. B.565 GL Nephotettix spp. B.566 GL Nilaparvata spp. B.567 GL Pseudococcus spp. B.568 GL Psylla spp. B.569 GL Quadraspidiotus spp. B.570 GL Schizaphis spp. B.571 GL Trialeurodes spp. B.572 GL Lyriomyza spp. B.573 GL Oscinella spp. B.574 GL Phorbia spp. B.575 GL Frankliniella spp. B.576 GL Thrips spp. B.577 GL Scirtothrips aurantii B.578 GL Aceria spp. B.579 GL Aculus spp. B.580 GL Brevipalpus spp. B.581 GL Panonychus spp. B.582 GL Phyllocoptruta spp. B.583 GL Tetranychus spp. B.584 GL Heterodera spp. B.585 GL Meloidogyne spp. B.586 PL Adoxophyes spp. B.587 PL Agrotis spp. B.588 PL Alabama argillaceae B.589 PL Anticarsia gemmatalis B.590 PL Chilo spp. B.591 PL Clysia ambiguella B.592 PL Crocidolomia binotalis B.593 PL Cydia spp. B.594 PL Diparopsis castanea B.595 PL Earias spp. B.596 PL Ephestia spp. B.597 PL Heliothis spp. B.598 PL Hellula undalis B.599 PL Keiferia lycopersicella B.600 PL Leucoptera scitella B.601 PL Lithocollethis spp. B.602 PL Lobesia botrana B.603 PL Ostrinia nubilalis B.604 PL Pandemis spp. B.605 PL Pectinophora gossyp. B.606 PL Phyllocnistis citrella B.607 PL Pieris spp. B.608 PL Plutella xylostella B.609 PL Scirpophaga spp. B.610 PL Sesamia spp. B.611 PL Sparganothis spp. B.612 PL Spodoptera spp. B.613 PL Tortrix spp. B.614 PL Trichoplusia ni B.615 PL Agriotes spp. B.616 PL Anthonomus grandis B.617 PL Curculio spp. B.618 PL Diabrotica balteata B.619 PL Leptinotarsa spp. B.620 PL Lissorhoptrus spp. B.621 PL Otiorhynchus spp. B.622 PL Aleurothrixus spp. B.623 PL Aleyrodes spp. B.624 PL Aonidiella spp. B.625 PL Aphididae spp. B.626 PL Aphis spp. B.627 PL Bemisia tabaci B.628 PL Empoasca spp. B.629 PL Mycus spp. B.630 PL Nephotettix spp. B.631 PL Nilaparvata spp. B.632 PL Pseudococcus spp. B.633 PL Psylla spp. B.634 PL Quadraspidiotus spp. B.635 PL Schizaphis spp. B.636 PL Trialeurodes spp. B.637 PL Lyriomyza spp. B.638 PL Oscinella spp. B.639 PL Phorbia spp. B.640 PL Frankliniella spp. B.641 PL Thrips spp. B.642 PL Scirtothrips aurantii B.643 PL Aceria spp. B.644 PL Aculus spp. B.645 PL Brevipalpus spp. B.646 PL Panonychus spp. B.647 PL Phyllocoptruta spp. B.648 PL Tetranychus spp. B.649 PL Heterodera spp. B.650 PL Meloidogyne spp. B.651 XN Adoxophyes spp. B.652 XN Agrotis spp. B.653 XN Alabama argillaceae B.654 XN Anticarsia gemmatalis B.655 XN Chilo spp. B.656 XN Clysia ambiguella B.657 XN Crocidolomia binotalis B.658 XN Cydia spp. B.659 XN Diparopsis castanea B.660 XN Earias spp. B.661 XN Ephestia spp. B.662 XN Heliothis spp. B.663 XN Hellula undalis B.664 XN Keiferia lycopersicella B.665 XN Leucoptera scitella B.666 XN Lithocollethis spp. B.667 XN Lobesia botrana B.668 XN Ostrinia nubilalis B.669 XN Pandemis spp. B.670 XN Pectinophora gossyp. B.671 XN Phyllocnistis citrella B.672 XN Pieris spp. B.673 XN Plutella xylostella B.674 XN Scirpophaga spp. B.675 XN Sesamia spp. B.676 XN Sparganothis spp. B.677 XN Spodoptera spp. B.678 XN Tortrix spp. B.679 XN Trichoplusia ni B.680 XN Agriotes spp. B.681 XN Anthonomus grandis B.682 XN Curculio spp. B.683 XN Diabrotica balteata B.684 XN Leptinotarsa spp. B.685 XN Lissorhoptrus spp. B.686 XN Otiorhynchus spp. B.687 XN Aleurothrixus spp. B.688 XN Aleyrodes spp. B.689 XN Aonidiella spp. B.690 XN Aphididae spp. B.691 XN Aphis spp. B.692 XN Bemisia tabaci B.693 XN Empoasca spp. B.694 XN Mycus spp. B.695 XN Nephotettix spp. B.696 XN Nilaparvata spp. B.697 XN Pseudococcus spp. B.698 XN Psylla spp. B.699 XN Quadraspidiotus spp. B.700 XN Schizaphis spp. B.701 XN Trialeurodes spp. B.702 XN Lyriomyza spp. B.703 XN Oscinella spp. B.704 XN Phorbia spp. B.705 XN Frankliniella spp. B.706 XN Thrips spp. B.707 XN Scirtothrips aurantii B.708 XN Aceria spp. B.709 XN Aculus spp. B.710 XN Brevipalpus spp. B.711 XN Panonychus spp. B.712 XN Phyllocoptruta spp. B.713 XN Tetranychus spp. B.714 XN Heterodera spp. B.715 XN Meloidogyne spp. B.716 PInh. Adoxophyes spp. B.717 PInh. Agrotis spp. B.718 PInh. Alabama argillaceae B.719 PInh. Anticarsia gemmatalis B.720 PInh. Chilo spp. B.721 PInh. Clysia ambiguella B.722 PInh. Crocidolomia binotalis B.723 PInh. Cydia spp. B.724 PInh. Diparopsis castanea B.725 PInh. Earias spp. B.726 PInh. Ephestia spp. B.727 PInh. Heliothis spp. B.728 PInh. Hellula undalis B.729 PInh. Keiferia lycopersicella B.730 PInh. Leucoptera scitella B.731 PInh. Lithocollethis spp. B.732 PInh. Lobesia botrana B.733 PInh. Ostrinia nubilalis B.734 PInh. Pandemis spp. B.735 PInh. Pectinophora gossyp. B.736 PInh. Phyllocnistis citrella B.737 PInh. Pieris spp. B.738 PInh. Plutella xylostella B.739 PInh. Scirpophaga spp. B.740 PInh. Sesamia spp. B.741 PInh. Sparganothis spp. B.742 PInh. Spodoptera spp. B.743 PInh. Tortrix spp. B.744 PInh. Trichoplusia ni B.745 PInh. Agriotes spp. B.746 PInh. Anthonomus grandis B.747 PInh. Curculio spp. B.748 PInh. Diabrotica balteata B.749 PInh. Leptinotarsa spp. B.750 PInh. Lissorhoptrus spp. B.751 PInh. Otiorhynchus spp. B.752 PInh. Aleurothrixus spp. B.753 PInh. Aleyrodes spp. B.754 PInh. Aonidiella spp. B.755 PInh. Aphididae spp. B.756 PInh. Aphis spp. B.757 PInh. Bemisia tabaci B.758 PInh. Empoasca spp. B.759 PInh. Mycus spp. B.760 PInh. Nephotettix spp. B.761 PInh. Nilaparvata spp. B.762 PInh. Pseudococcus spp. B.763 PInh. Psylla spp. B.764 PInh. Quadraspidiotus spp. B.765 PInh. Schizaphis spp. B.766 PInh. Trialeurodes spp. B.767 PInh. Lyriomyza spp. B.768 PInh. Oscinella spp. B.769 PInh. Phorbia spp. B.770 PInh. Frankliniella spp. B.771 PInh. Thrips spp. B.772 PInh. Scirtothrips aurantii B.773 PInh. Aceria spp. B.774 PInh. Aculus spp. B.775 PInh. Brevipalpus spp. B.776 PInh. Panonychus spp. B.777 PInh. Phyllocoptruta spp. B.778 PInh. Tetranychus spp. B.779 PInh. Heterodera spp. B.780 PInh. Meloidogyne spp. B.781 PLec. Adoxophyes spp. B.782 PLec. Agrotis spp. B.783 PLec. Alabama argillaceae B.784 PLec. Anticarsia gemmatalis B.785 PLec. Chilo spp. B.786 PLec. Clysia ambiguella B.787 PLec. Crocidolomia binotalis B.788 PLec. Cydia spp. B.789 PLec. Diparopsis castanea B.790 PLec. Earias spp. B.791 PLec. Ephestia spp. B.792 PLec. Heliothis spp. B.793 PLec. Hellula undalis B.794 PLec. Keiferia lycopersicella B.795 PLec. Leucoptera scitella B.796 PLec. Lithocollethis spp. B.797 PLec. Lobesia botrana B.798 PLec. Ostrinia nubilalis B.799 PLec. Pandemis spp. B.800 PLec. Pectinophora gossyp. B.801 PLec. Phyllocnistis citrella B.802 PLec. Pieris spp. B.803 PLec. Plutella xylostella B.804 PLec. Scirpophaga spp. B.805 PLec. Sesamia spp. B.806 PLec. Sparganothis spp. B.807 PLec. Spodoptera spp. B.808 PLec. Tortrix spp. B.809 PLec. Trichoplusia ni B.810 PLec. Agriotes spp. B.811 PLec. Anthonomus grandis B.812 PLec. Curculio spp. B.813 PLec. Diabrotica balteata B.814 PLec. Leptinotarsa spp. B.815 PLec. Lissorhoptrus spp. B.816 PLec. Otiorhynchus spp. B.817 PLec. Aleurothrixus spp. B.818 PLec. Aleyrodes spp. B.819 PLec. Aonidiella spp. B.820 PLec. Aphididae spp. B.821 PLec. Aphis spp. B.822 PLec. Bemisia tabaci B.823 PLec. Empoasca spp. B.824 PLec. Mycus spp. B.825 PLec. Nephotettix spp. B.826 PLec. Nilaparvata spp. B.827 PLec. Pseudococcus spp. B.828 PLec. Psylla spp. B.829 PLec. Quadraspidiotus spp. B.830 PLec. Schizaphis spp. B.831 PLec. Trialeurodes spp. B.832 PLec. Lyriomyza spp. B.833 PLec. Oscinella spp. B.834 PLec. Phorbia spp. B.835 PLec. Frankliniella spp. B.836 PLec. Thrips spp. B.837 PLec. Scirtothrips aurantii B.838 PLec. Aceria spp. B.839 PLec. Aculus spp. B.840 PLec. Brevipalpus spp. B.841 PLec. Panonychus spp. B.842 PLec. Phyllocoptruta spp. B.843 PLec. Tetranychus spp. B.844 PLec. Heterodera spp. B.845 PLec. Meloidogyne spp. B.846 Aggl. Adoxophyes spp. B.847 Aggl. Agrotis spp. B.848 Aggl. Alabama argillaceae B.849 Aggl. Anticarsia gemmatalis B.850 Aggl. Chilo spp. B.851 Aggl. Clysia ambiguella B.852 Aggl. Crocidolomia binotalis B.853 Aggl. Cydia spp. B.854 Aggl. Diparopsis castanea B.855 Aggl. Earias spp. B.856 Aggl. Ephestia spp. B.857 Aggl. Heliothis spp. B.858 Aggl. Hellula undalis B.859 Aggl. Keiferia lycopersicella B.860 Aggl. Leucoptera scitella B.861 Aggl. Lithocollethis spp. B.862 Aggl. Lobesia botrana B.863 Aggl. Ostrinia nubilalis B.864 Aggl. Pandemis spp. B.865 Aggl. Pectinophora gossyp. B.866 Aggl. Phyllocnistis citrella B.867 Aggl. Pieris spp. B.868 Aggl. Plutella xylostella B.869 Aggl. Scirpophaga spp. B.870 Aggl. Sesamia spp. B.871 Aggl. Sparganothis spp. B.872 Aggl. Spodoptera spp. B.873 Aggl. Tortrix spp. B.874 Aggl. Trichoplusia ni B.875 Aggl. Agriotes spp. B.876 Aggl. Anthonomus grandis B.877 Aggl. Curculio spp. B.878 Aggl. Diabrotica balteata B.879 Aggl. Leptinotarsa spp. B.880 Aggl. Lissorhoptrus spp. B.881 Aggl. Otiorhynchus spp. B.882 Aggl. Aleurothrixus spp. B.883 Aggl. Aleyrodes spp. B.884 Aggl. Aonidiella spp. B.885 Aggl. Aphididae spp. B.886 Aggl. Aphis spp. B.887 Aggl. Bemisia tabaci B.888 Aggl. Empoasca spp. B.889 Aggl. Mycus spp. B.890 Aggl. Nephotettix spp. B.891 Aggl. Nilaparvata spp. B.892 Aggl. Pseudococcus spp. B.893 Aggl. Psylla spp. B.894 Aggl. Quadraspidiotus spp. B.895 Aggl. Schizaphis spp. B.896 Aggl. Trialeurodes spp. B.897 Aggl. Lyriomyza spp. B.898 Aggl. Oscinella spp. B.899 Aggl. Phorbia spp. B.900 Aggl. Frankliniella spp. B.901 Aggl. Thrips spp. B.902 Aggl. Scirtothrips aurantii B.903 Aggl. Aceria spp. B.904 Aggl. Aculus spp. B.905 Aggl. Brevipalpus spp. B.906 Aggl. Panonychus spp. B.907 Aggl. Phyllocoptruta spp. B.908 Aggl. Tetranychus spp. B.909 Aggl. Heterodera spp. B.910 Aggl. Meloidogyne spp. B.911 CO Adoxophyes spp. B.912 CO Agrotis spp. B.913 CO Alabama argillaceae B.914 CO Anticarsia gemmatalis B.915 CO Chilo spp. B.916 CO Clysia ambiguella B.917 CO Crocidolomia binotalis B.918 CO Cydia spp. B.919 CO Diparopsis castanea B.920 CO Earias spp. B.921 CO Ephestia spp. B.922 CO Heliothis spp. B.923 CO Hellula undalis B.924 CO Keiferia lycopersicella B.925 CO Leucoptera scitella B.926 CO Lithocollethis spp. B.927 CO Lobesia botrana B.928 CO Ostrinia nubilalis B.929 CO Pandemis spp. B.930 CO Pectinophora gossyp. B.931 CO Phyllocnistis citrella B.932 CO Pieris spp. B.933 CO Plutella xylostella B.934 CO Scirpophaga spp. B.935 CO Sesamia spp. B.936 CO Sparganothis spp. B.937 CO Spodoptera spp. B.938 CO Tortrix spp. B.939 CO Trichoplusia ni B.940 CO Agriotes spp. B.941 CO Anthonomus grandis B.942 CO Curculio spp. B.943 CO Diabrotica balteata B.944 CO Leptinotarsa spp. B.945 CO Lissorhoptrus spp. B.946 CO Otiorhynchus spp. B.947 CO Aleurothrixus spp. B.948 CO Aleyrodes spp. B.949 CO Aonidiella spp. B.950 CO Aphididae spp. B.951 CO Aphis spp. B.952 CO Bemisia tabaci B.953 CO Empoasca spp. B.954 CO Mycus spp. B.955 CO Nephotettix spp. B.956 CO Nilaparvata spp. B.957 CO Pseudococcus spp. B.958 CO Psylla spp. B.959 CO Quadraspidiotus spp. B.960 CO Schizaphis spp. B.961 CO Trialeurodes spp. B.962 CO Lyriomyza spp. B.963 CO Oscinella spp. B.964 CO Phorbia spp. B.965 CO Frankliniella spp. B.966 CO Thrips spp. B.967 CO Scirtothrips aurantii B.968 CO Aceria spp. B.969 CO Aculus spp. B.970 CO Brevipalpus spp. B.971 CO Panonychus spp. B.972 CO Phyllocoptruta spp. B.973 CO Tetranychus spp. B.974 CO Heterodera spp. B.975 CO Meloidogyne spp. B.976 CH Adoxophyes spp. B.977 CH Agrotis spp. B.978 CH Alabama argillaceae B.979 CH Anticarsia gemmatalis B.980 CH Chilo spp. B.981 CH Clysia ambiguella B.982 CH Crocidolomia binotalis B.983 CH Cydia spp. B.984 CH Diparopsis castanea B.985 CH Earias spp. B.986 CH Ephestia spp. B.987 CH Heliothis spp. B.988 CH Hellula undalis B.989 CH Keiferia lycopersicella B.990 CH Leucoptera scitella B.991 CH Lithocollethis spp. B.992 CH Lobesia botrana B.993 CH Ostrinia nubilalis B.994 CH Pandemis spp. B.995 CH Pectinophora gossyp. B.996 CH Phyllocnistis citrella B.997 CH Pieris spp. B.998 CH Plutella xylostella B.999 CH Scirpophaga spp. B.1000 CH Sesamia spp. B.1001 CH Sparganothis spp. B.1002 CH Spodoptera spp. B.1003 CH Tortrix spp. B.1004 CH Trichoplusia ni B.1005 CH Agriotes spp. B.1006 CH Anthonomus grandis B.1007 CH Curculio spp. B.1008 CH Diabrotica balteata B.1009 CH Leptinotarsa spp. B.1010 CH Lissorhoptrus spp. B.1011 CH Otiorhynchus spp. B.1012 CH Aleurothrixus spp. B.1013 CH Aleyrodes spp. B.1014 CH Aonidiella spp. B.1015 CH Aphididae spp. B.1016 CH Aphis spp. B.1017 CH Bemisia tabaci B.1018 CH Empoasca spp. B.1019 CH Mycus spp. B.1020 CH Nephotettix spp. B.1021 CH Nilaparvata spp. B.1022 CH Pseudococcus spp. B.1023 CH Psylla spp. B.1024 CH Quadraspidiotus spp. B.1025 CH Schizaphis spp. B.1026 CH Trialeurodes spp. B.1027 CH Lyriomyza spp. B.1028 CH Oscinella spp. B.1029 CH Phorbia spp. B.1030 CH Frankliniella spp. B.1031 CH Thrips spp. B.1032 CH Scirtothrips aurantii B.1033 CH Aceria spp. B.1034 CH Aculus spp. B.1035 CH Brevipalpus spp. B.1036 CH Panonychus spp. B.1037 CH Phyllocoptruta spp. B.1038 CH Tetranychus spp. B.1039 CH Heterodera spp. B.1040 CH Meloidogyne spp. B.1041 SS Adoxophyes spp. B.1042 SS Agrotis spp. B.1043 SS Alabama argillaceae B.1044 SS Anticarsia gemmatalis B.1045 SS Chilo spp. B.1046 SS Clysia ambiguella B.1047 SS Crocidolomia binotalis B.1048 SS Cydia spp. B.1049 SS Diparopsis castanea B.1050 SS Earias spp. B.1051 SS Ephestia spp. B.1052 SS Heliothis spp. B.1053 SS Hellula undalis B.1054 SS Keiferia lycopersicella B.1055 SS Leucoptera scitella B.1056 SS Lithocollethis spp. B.1057 SS Lobesia botrana B.1058 SS Ostrinia nubilalis B.1059 SS Pandemis spp. B.1060 SS Pectinophora gossyp. B.1061 SS Phyllocnistis citrella B.1062 SS Pieris spp. B.1063 SS Plutella xylostella B.1064 SS Scirpophaga spp. B.1065 SS Sesamia spp. B.1066 SS Sparganothis spp. B.1067 SS Spodoptera spp. B.1068 SS Tortrix spp. B.1069 SS Trichoplusia ni B.1070 SS Agriotes spp. B.1071 SS Anthonomus grandis B.1072 SS Curculio spp. B.1073 SS Diabrotica balteata B.1074 SS Leptinotarsa spp. B.1075 SS Lissorhoptrus spp. B.1076 SS Otiorhynchus spp. B.1077 SS Aleurothrixus spp. B.1078 SS Aleyrodes spp. B.1079 SS Aonidiella spp. B.1080 SS Aphididae spp. B.1081 SS Aphis spp. B.1082 SS Bemisia tabaci B.1083 SS Empoasca spp. B.1084 SS Mycus spp. B.1085 SS Nephotettix spp. B.1086 SS Nilaparvata spp. B.1087 SS Pseudococcus spp. B.1088 SS Psylla spp. B.1089 SS Quadraspidiotus spp. B.1090 SS Schizaphis spp. B.1091 SS Trialeurodes spp. B.1092 SS Lyriomyza spp. B.1093 SS Oscinella spp. B.1094 SS Phorbia spp. B.1095 SS Frankliniella spp. B.1096 SS Thrips spp. B.1097 SS Scirtothrips aurantii B.1098 SS Aceria spp. B.1099 SS Aculus spp. B.1100 SS Brevipalpus spp. B.1101 SS Panonychus spp. B.1102 SS Phyllocoptruta spp. B.1103 SS Tetranychus spp. B.1104 SS Heterodera spp. B.1105 SS Meloidogyne spp. B.1106 HO Adoxophyes spp. B.1107 HO Agrotis spp. B.1108 HO Alabama argillaceae B.1109 HO Anticarsia gemmatalis B.1110 HO Chilo spp. B.1111 HO Clysia ambiguella B.1112 HO Crocidolomia binotalis B.1113 HO Cydia spp. B.1114 HO Diparopsis castanea B.1115 HO Earias spp. B.1116 HO Ephestia spp. B.1117 HO Heliothis spp. B.1118 HO Hellula undalis B.1119 HO Keiferia lycopersicella B.1120 HO Leucoptera scitella B.1121 HO Lithocollethis spp. B.1122 HO Lobesia botrana B.1123 HO Ostrinia nubilalis B.1124 HO Pandemis spp. B.1125 HO Pectinophora gossypiella B.1126 HO Phyllocnistis citrella B.1127 HO Pieris spp. B.1128 HO Plutella xylostella B.1129 HO Scirpophaga spp. B.1130 HO Sesamia spp. B.1131 HO Sparganothis spp. B.1132 HO Spodoptera spp. B.1133 HO Tortrix spp. B.1134 HO Trichoplusia ni B.1135 HO Agriotes spp. B.1136 HO Anthonomus grandis B.1137 HO Curculio spp. B.1138 HO Diabrotica balteata B.1139 HO Leptinotarsa spp. B.1140 HO Lissorhoptrus spp. B.1141 HO Otiorhynchus spp. B.1142 HO Aleurothrixus spp. B.1143 HO Aleyrodes spp. B.1144 HO Aonidiella spp. B.1145 HO Aphididae spp. B.1146 HO Aphis spp. B.1147 HO Bemisia tabaci B.1148 HO Empoasca spp. B.1149 HO Mycus spp. B.1150 HO Nephotettix spp. B.1151 HO Nilaparvata spp. B.1152 HO Pseudococcus spp. B.1153 HO Psylla spp. B.1154 HO Quadraspidiotus spp. B.1155 HO Schizaphis spp. B.1156 HO Trialeurodes spp. B.1157 HO Lyriomyza spp. B.1158 HO Oscinella spp. B.1159 HO Phorbia spp. B.1160 HO Franklinella spp. B.1161 HO Thrips spp. B.1162 HO Scirtothrips aurantii B.1163 HO Aceria spp. B.1164 HO Aculus spp. B.1165 HO Brevipalpus spp. B.1166 HO Panonychus spp. B.1167 HO Phyllocoptruta spp. B.1168 HO Tetranychus spp. B.1169 HO Heterodera spp. B.1170 HO Meloidogyne spp. The following abreviations are used in the table: Active Principle of transgenic plant: AP Photorhabdus luminescens: PL Xenorhabdus nematophilus: XN Proteinase Inhibitors: PInh. Plant lectins PLec. Agglutinins: Aggl. 3-Hydroxysteroid oxidase: HO Cholesteroloxidase: CO Chitinase: CH Glucanase: GL Stilbensynthase SS

Biological Examples

Table 1: A method of controlling pests comprising the application of thiamethoxam to transgenic cotton, wherein the combination of the active principle expressed by the transgenic plant and the pest to be controlled correspond to anyone of the individualised combinations B.1 to B.1170 of table B.

Table 2: A method of controlling pests comprising the application of thiamethoxam to transgenic rice, wherein the combination of the active principle expressed by the transgenic plant and the pest to be controlled correspond to anyone of the individualised combinations B.1 to B.1170 of table B.

Table 3: A method of controlling pests comprising the application of thiamethoxam to transgenic potatoes, wherein the combination of the active principle expressed by the transgenic plant and the pest to be controlled correspond to anyone of the individualised combinations B.1 to B.1170 of table B.

Table 4: A method of controlling pests comprising the application of thiamethoxam to transgenic brassica, wherein the combination of the active principle expressed by the transgenic plant and the pest to be controlled correspond to anyone of the individualised combinations B.1 to B.1170 of table B.

Table 5: A method of controlling pests comprising the application of thiamethoxam to transgenic tomatoes, wherein the combination of the active principle expressed by the transgenic plant and the pest to be controlled correspond to anyone of the individualised combinations B.1 to B.1170 of table B.

Table 6: A method of controlling pests comprising the application of thiamethoxam to transgenic cucurbits, wherein the combination of the active principle expressed by the transgenic plant and the pest to be controlled correspond to anyone of the individualised combinations B.1 to B.1170 of table B.

Table 7: A method of controlling pests comprising the application of thiamethoxam to transgenic soybeans, wherein the combination of the active principle expressed by the transgenic plant and the pest to be controlled correspond to anyone of the individualised combinations B.1 to B.1170 of table B.

Table 8: A method of controlling pests comprising the application of thiamethoxam to transgenic maize, wherein the combination of the active principle expressed by the transgenic plant and the pest to be controlled correspond to anyone of the individualised combinations B.1 to B.1170 of table B.

Table 9: A method of controlling pests comprising the application of thiamethoxam to transgenic wheat, wherein the combination of the active principle expressed by the transgenic plant and the pest to be controlled correspond to anyone of the individualised combinations B.1 to B.1170 of table B.

Table 10: A method of controlling pests comprising the application of thiamethoxam to transgenic bananas, wherein the combination of the active principle expressed by the transgenic plant and the pest to be controlled correspond to anyone of the individualised combinations B.1 to B.1170 of table B.

Table 11: A method of controlling pests comprising the application of thiamethoxam to transgenic citrus trees, wherein the combination of the active principle expressed by the transgenic plant and the pest to be controlled correspond to anyone of the individualised combinations B.1 to B.1170 of table B.

Table 12: A method of controlling pests comprising the application of thiamethoxam to transgenic pome fruit trees, wherein the combination of the active principle expressed by the transgenic plant and the pest to be controlled correspond to anyone of the individualised combinations B.1 to B.1170 of table B.

Table 13: A method of controlling pests comprising the application of thiamethoxam to transgenic peppers, wherein the combination of the active principle expressed by the transgenic plant and the pest to be controlled correspond to anyone of the individualised combinations B.1 to B.1170 of table B.

Table 14: A method of controlling pests comprising the application of imidacloprid to transgenic cotton, wherein the combination of the active principle expressed by the transgenic plant and the pest to be controlled correspond to anyone of the individualised combinations B.1 to B.1170 of table B.

Table 15: A method of controlling pests comprising the application of imidacloprid to transgenic rice, wherein the combination of the active principle expressed by the transgenic plant and the pest to be controlled correspond to anyone of the individualised combinations B.1 to B.1170 of table B.

Table 16: A method of controlling pests comprising the application of imidacloprid to transgenic potatoes, wherein the combination of the active principle expressed by the transgenic plant and the pest to be controlled correspond to anyone of the individualised combinations B.1 to B.1170 of table B.

Table 17: A method of controlling pests comprising the application of imidacloprid to transgenic tomatoes, wherein the combination of the active principle expressed by the transgenic plant and the pest to be controlled correspond to anyone of the individualised combinations B.1 to B.1170 of table B.

Table 18: A method of controlling pests comprising the application of imidacloprid to transgenic cucurbits, wherein the combination of the active principle expressed by the transgenic plant and the pest to be controlled correspond to anyone of the individualised combinations B. 1 to B. 1170 of table B.

Table 19: A method of controlling pests comprising the application of imidacloprid to transgenic soybeans, wherein the combination of the active principle expressed by the transgenic plant and the pest to be controlled correspond to anyone of the individualised combinations B.1 to B.1170 of table B.

Table 20: A method of controlling pests comprising the application of imidacloprid to transgenic maize, wherein the combination of the active principle expressed by the transgenic plant and the pest to be controlled correspond to anyone of the individualised combinations B.1 to B.1170 of table B.

Table 21: A method of controlling pests comprising the application of imidacloprid to transgenic wheat, wherein the combination of the active principle expressed by the transgenic plant and the pest to be controlled correspond to anyone of the individualised combinations B.1 to B.1170 of table B.

Table 22: A method of controlling pests comprising the application of imidacloprid to transgenic bananas, wherein the combination of the active principle expressed by the transgenic plant and the pest to be controlled correspond to anyone of the individualised combinations B.1 to B.1170 of table B.

Table 23: A method of controlling pests comprising the application of imidacloprid to transgenic orange trees, wherein the combination of the active principle expressed by the transgenic plant and the pest to be controlled correspond to anyone of the individualised combinations B.1 to B.1170 of table B.

Table 24: A method of controlling pests comprising the application of imidacloprid to transgenic pome fruit, wherein the combination of the active principle expressed by the transgenic plant and the pest to be controlled correspond to anyone of the individualised combinations B.1 to B.1170 of table B.

Table 25: A method of controlling pests comprising the application of imidacloprid to transgenic cucurbits, wherein the combination of the active principle expressed by the transgenic plant and the pest to be controlled correspond to anyone of the individualised combinations B.1 to B.1170 of table B.

Table 26: A method of controlling pests comprising the application of imidacloprid to transgenic peppers, wherein the combination of the active principle expressed by the transgenic plant and the pest to be controlled correspond to anyone of the individualised combinations B.1 to B.1170 of table B.

Table 27: A method of controlling pests comprising the application of Ti-435 to transgenic cotton, wherein the combination of the active principle expressed by the transgenic plant and the pest to be controlled correspond to anyone of the individualised combinations B.1 to B.1170 of table B.

Table 28: A method of controlling pests comprising the application of Ti-435 to transgenic rice, wherein the combination of the active principle expressed by the transgenic plant and the pest to be controlled correspond to anyone of the individualised combinations B.1 to B.1170 of table B.

Table 29: A method of controlling pests comprising the application of Ti-435 to transgenic potatoes, wherein the combination of the active principle expressed by the transgenic plant and the pest to be controlled correspond to anyone of the individualised combinations B.1 to B.1170 of table B.

Table 30: A method of controlling pests comprising the application of Ti-435 to transgenic brassica, wherein the combination of the active principle expressed by the transgenic plant and the pest to be controlled correspond to anyone of the individualised combinations B.1 to B.1170 of table B.

Table 31: A method of controlling pests comprising the application of Ti-435 to transgenic tomatoes, wherein the combination of the active principle expressed by the transgenic plant and the pest to be controlled correspond to anyone of the individualised combinations B.1 to B.1170 of table B.

Table 32: A method of controlling pests comprising the application of Ti-435 to transgenic cucurbits, wherein the combination of the active principle expressed by the transgenic plant and the pest to be controlled correspond to anyone of the individualised combinations B.1 to B. 1170 of table B.

Table 33: A method of controlling pests comprising the application of Ti-435 to transgenic soybeans, wherein the combination of the active principle expressed by the transgenic plant and the pest to be controlled correspond to anyone of the individualised combinations B.1 to B.1170 of table B.

Table 34: A method of controlling pests comprising the application of Ti-435 to transgenic maize, wherein the combination of the active principle expressed by the transgenic plant and the pest to be controlled correspond to anyone of the individualised combinations B.1 to B.1170 of table B.

Table 35: A method of controlling pests comprising the application of Ti-435 to transgenic wheat, wherein the combination of the active principle expressed by the transgenic plant and the pest to be controlled correspond to anyone of the individualised combinations B.1 to B.1170 of table B.

Table 36: A method of controlling pests comprising the application of Ti-435 to transgenic bananas, wherein the combination of the active principle expressed by the transgenic plant and the pest to be controlled correspond to anyone of the individualised combinations B.1 to B.1170 of table B.

Table 37: A method of controlling pests comprising the application of Ti-435 to transgenic citrus trees, wherein the combination of the active principle expressed by the transgenic plant and the pest to be controlled correspond to anyone of the individualised combinations B.1 to B.1170 of table B.

Table 38: A method of controlling pests comprising the application of Ti-435 to transgenic pome fruit trees, wherein the combination of the active principle expressed by the transgenic plant and the pest to be controlled correspond to anyone of the individualised combinations B.1 to B.1170 of table B.

Table 39: A method of controlling pests comprising the application of thiacloprid to transgenic cotton, wherein the combination of the active principle expressed by the transgenic plant and the pest to be controlled correspond to anyone of the individualised combinations B.1 to B.1170 of table B.

Table 40: A method of controlling pests comprising the application of thiacloprid to transgenic rice, wherein the combination of the active principle expressed by the transgenic plant and the pest to be controlled correspond to anyone of the individualised combinations B.1 to B.1170 of table B.

Table 41: A method of controlling pests comprising the application of thiacloprid to transgenic potatoes, wherein the combination of the active principle expressed by the transgenic plant and the pest to be controlled correspond to anyone of the individualised combinations B.1 to B.1170 of table B.

Table 42: A method of controlling pests comprising the application of thiacloprid to transgenic brassica, wherein the combination of the active principle expressed by the transgenic plant and the pest to be controlled correspond to anyone of the individualised combinations B.1 to B.1170 of table B.

Table 43: A method of controlling pests comprising the application of thiacloprid to transgenic tomatoes, wherein the combination of the active principle expressed by the transgenic plant and the pest to be controlled correspond to anyone of the individualised combinations B.1 to B.1170 of table B.

Table 44: A method of controlling pests comprising the application of thiacloprid to transgenic cucurbits, wherein the combination of the active principle expressed by the transgenic plant and the pest to be controlled correspond to anyone of the individualised combinations B.1 to B.1170 of table B.

Table 45: A method of controlling pests comprising the application of thiacloprid to transgenic soybeans, wherein the combination of the active principle expressed by the transgenic plant and the pest to be controlled correspond to anyone of the individualised combinations B.1 to B.1170 of table B.

Table 46: A method of controlling pests comprising the application of thiacloprid to transgenic maize, wherein the combination of the active principle expressed by the transgenic plant and the pest to be controlled correspond to anyone of the individualised combinations B.1 to B.1170 of table B.

Table 47: A method of controlling pests comprising the application of thiacloprid to transgenic wheat, wherein the combination of the active principle expressed by the transgenic plant and the pest to be controlled correspond to anyone of the individualised combinations B.1 to B.1170 of table B.

Table 48: A method of controlling pests comprising the application of thiacloprid to transgenic bananas, wherein the combination of the active principle expressed by the transgenic plant and the pest to be controlled correspond to anyone of the individualised combinations B.1 to B.1170 of table B.

TABLE C Principle Tolerant to Crop C.1 ALS Sulfonylureas etc. *** Cotton C.2 ALS Sulfonylureas etc. *** Rice C.3 ALS Sulfonylureas etc. *** Brassica C.4 ALS Sulfonylureas etc. *** Potatoes C.5 ALS Sulfonylureas etc. *** Tomatoes C.6 ALS Sulfonylureas etc. *** Cucurbits C.7 ALS Sulfonylureas etc. *** Soybeans C.8 ALS Sulfonylureas etc. *** Maize C.9 ALS Sulfonylureas etc. *** Wheat C.10 ALS Sulfonylureas etc. *** pome fruit C.11 ALS Sulfonylureas etc. *** stone fruit C.12 ALS Sulfonylureas etc. *** citrus C.13 ACCase +++ Cotton C.14 ACCase +++ Rice C.15 ACCase +++ Brassica C.16 ACCase +++ Potatoes C.17 ACCase +++ Tomatoes C.18 ACCase +++ Cucurbits C.19 ACCase +++ Soybeans C.20 ACCase +++ Maize C.21 ACCase +++ Wheat C.22 ACCase +++ pome fruit C.23 ACCase +++ stone fruit C.24 ACCase +++ citrus C.25 HPPD Isoxaflutol, Isoxachlotol, Cotton Sulcotrion, Mesotrion C.26 HPPD Isoxaflutol, Isoxachlotol, Rice Sulcotrion, Mesotrion C.27 HPPD Isoxaflutol, Isoxachlotol, Brassica Sulcotrion, Mesotrion C.28 HPPD Isoxaflutol, Isoxachlotol, Potatoes Sulcotrion, Mesotrion C.29 HPPD Isoxaflutol, Isoxachlotol, Tomatoes Sulcotrion, Mesotrion C.30 HPPD Isoxaflutol, Isoxachlotol, Cucurbits Sulcotrion, Mesotrion C.31 HPPD Isoxaflutol, Isoxachlotol, Soybeans Sulcotrion, Mesotrion C.32 HPPD Isoxaflutol, Isoxachlotol, Maize Sulcotrion, Mesotrion C.33 HPPD Isoxaflutol, Isoxachlotol, Wheat Sulcotrion, Mesotrion C.34 HPPD Isoxaflutol, Isoxachlotol, pome fruit Sulcotrion, Mesotrion C.35 HPPD Isoxaflutol, Isoxachlotol, stone fruit Sulcotrion, Mesotrion C.36 HPPD Isoxaflutol, Isoxachlotol, citrus Sulcotrion, Mesotrion C.37 Nitrilase Bromoxynil, Ioxynil Cotton C.38 Nitrilase Bromoxynil, Ioxynil Rice C.39 Nitrilase Bromoxynil, Ioxynil Brassica C.40 Nitrilase Bromoxynil, Ioxynil Potatoes C.41 Nitrilase Bromoxynil, Ioxynil Tomatoes C.42 Nitrilase Bromoxynil, Ioxynil Cucurbits C.43 Nitrilase Bromoxynil, Ioxynil Soybeans C.44 Nitrilase Bromoxynil, Ioxynil Maize C.45 Nitrilase Bromoxynil, Ioxynil Wheat C.46 Nitrilase Bromoxynil, Ioxynil pome fruit C.47 Nitrilase Bromoxynil, Ioxynil stone fruit C.48 Nitrilase Bromoxynil, Ioxynil citrus C.49 IPS Chloroactanilides &&& Cotton C.50 IPS Chloroactanilides &&& Rice C.51 IPS Chloroactanilide &&&s Brassica C.52 IPS Chloroactanilides &&& Potatoes C.53 IPS Chloroactanilides &&& Tomatoes C.54 IPS Chloroactanilides &&& Cucurbits C.55 IPS Chloroactanilides &&& Soybeans C.56 IPS Chloroactanilides &&& Maize C.57 IPS Chloroactanilides &&& Wheat C.58 IPS Chloroactanilides &&& pome fruit C.59 IPS Chloroactanilides &&& stone fruit C.60 IPS Chloroactanilides &&& citrus C.61 HOM 2,4-D, Mecoprop-P Cotton C.62 HOM 2,4-D, Mecoprop-P Rice C.63 HOM 2,4-D, Mecoprop-P Brassica C.64 HOM 2,4-D, Mecoprop-P Potatoes C.65 HOM 2,4-D, Mecoprop-P Tomatoes C.66 HOM 2,4-D, Mecoprop-P Cucurbits C.67 HOM 2,4-D, Mecoprop-P Soybeans C.68 HOM 2,4-D, Mecoprop-P Maize C.69 HOM 2,4-D, Mecoprop-P Wheat C.70 HOM 2,4-D, Mecoprop-P pome fruit C.71 HOM 2,4-D, Mecoprop-P stone fruit C.72 HOM 2,4-D, Mecoprop-P citrus C.73 PROTOX Protox inhibitors /// Cotton C.74 PROTOX Protox inhibitors /// Rice C.75 PROTOX Protox inhibitors /// Brassica C.76 PROTOX Protox inhibitors /// Potatoes C.77 PROTOX Protox inhibitors /// Tomatoes C.78 PROTOX Protox inhibitors /// Cucurbits C.79 PROTOX Protox inhibitors /// Soybeans C.80 PROTOX Protox inhibitors /// Maize C.81 PROTOX Protox inhibitors /// Wheat C.82 PROTOX Protox inhibitors /// pome fruit C.83 PROTOX Protox inhibitors /// stone fruit C.84 PROTOX Protox inhibitors /// citrus C.85 EPSPS Glyphosate and/or Sulphosate Cotton C.86 EPSPS Glyphosate and/or Sulphosate Rice C.87 EPSPS Glyphosate and/or Sulphosate Brassica C.88 EPSPS Glyphosate and/or Sulphosate Potatoes C.89 EPSPS Glyphosate and/or Sulphosate Tomatoes C.90 EPSPS Glyphosate and/or Sulphosate Cucurbits C.91 EPSPS Glyphosate and/or Sulphosate Soybeans C.92 EPSPS Glyphosate and/or Sulphosate Maize C.93 EPSPS Glyphosate and/or Sulphosate Wheat C.94 EPSPS Glyphosate and/or Sulphosate pome fruit C.95 EPSPS Glyphosate and/or Sulphosate stone fruit C.96 EPSPS Glyphosate and/or Sulphosate citrus C.97 GS Gluphosinate and/or Bialaphos Cotton C.98 GS Gluphosinate and/or Bialaphos Rice C.99 GS Gluphosinate and/or Bialaphos Brassica C.100 GS Gluphosinate and/or Bialaphos Potatoes C.101 GS Gluphosinate and/or Bialaphos Tomatoes C.102 GS Gluphosinate and/or Bialaphos Cucurbits C.103 GS Gluphosinate and/or Bialaphos Soybeans C.104 GS Gluphosinate and/or Bialaphos Maize C.105 GS Gluphosinate and/or Bialaphos Wheat C.106 GS Gluphosinate and/or Bialaphos pome fruit C.107 GS Gluphosinate and/or Bialaphos stone fruit C.108 GS Gluphosinate and/or Bialaphos citrus Abbreviations: Acetyl-COA Carboxylase: ACCase Acetolactate Synthase: ALS Hydroxyphenylpyruvat dioxygenase: HPPD Inhibition of protein synthesis: IPS Hormone mimic: HO Glutamine Synthetase: GS Protoporphyrinogen oxidase: PROTOX 5-Enolpyruvyl-3-Phosphoshikimate Synthase: EPSPS *** Included are Sulfonylureas, Imidazolinones, Triazolopyrimidines, Dimethoxypyrimidines and N-Acylsulfonamides: Sulfonylureas such as Chlorsulfuron, Chlorimuron, Ethamethsulfuron, Metsulfuron, Primisulfuron, Prosulfuron, Triasulfuron, Cinosulfuron, Trifusulfuron, Oxasulfuron, Bensulfuron, Tribenuron, ACC 322140, Fluzasulfuron, Ethoxysulfuron, Fluzasdulfuron, Nicosulfuron, Rimsulfuron, Thifensulfuron, Pyrazosulfuron, Clopyrasulfuron, NC 330, Azimsulfuron, Imazosulfuron, Sulfosulfuron, Amidosulfuron, Flupyrsulfuron, CGA 362622 Imidazolinones such as Imazamethabenz, Imazaquin, Imazamethypyr, Imazethapyr, Imazapyr and Imazamox; Triazolopyrimidines such as DE 511, Flumetsulam and Chloransulam; Dimethoxypyrimidines such as Pyrithiobac, Pyriminiobac, Bispyribac and Pyribenzoxim. +++ Tolerant to Diclofop-methyl, Fluazifop-P-butyl, Haloxyfop-P-methyl, Haloxyfop-P-ethyl, Quizalafop-P-ethyl, clodinafop propargyl, fenoxaprop - -ethyl, - Tepraloxydim, Alloxydim, Sethoxydim, Cycloxydim, Cloproxydim, Tralkoxydrim, Butoxydim, Caloxydim, Clefoxydim, Clethodim. &&& Chloroacetanilides such as Alachlor Acetochlor, Dimethenamid /// Protox inhibitors: For instance diphenyethers such as Acifluorfen, Aclonifen, Bifenox, Chlornitrofen, Ethoxyfen, Fluoroglycofen, Fomesafen, Lactofen, Oxyfluorfen; Imides such as Azafenidin, Carfentrazone-ethyl, Cinidon-ethyl, Flumiclorac-pentyl, Flumioxazin, Fluthiacetmethyl, Oxadiargyl, Oxadiazon, Pentoxazone, Sulfentrazone, Imides and others, such as Flumipropyn, Flupropacil, Nipyraclofen and Thidiazimin; and further Fluzazolate and Pyraflufen-ethyl

Biological Examples

Table 49: A method of controlling representatives of the genus Adoxophyes comprising the application of thiamethoxam to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 50: A method of controlling representatives of the genus Agrotis comprising the application of thiamethoxam to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 51: A method of controlling Alabama argillaceae comprising the application of thiamethoxam to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant, and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 52: A method of controlling Anticarsia gemmatalis comprising the application of thiamethoxam to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 53: A method of controlling representatives of the genus Chilo comprising the application of thiamethoxam to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 54: A method of controlling Clysia ambiguella comprising the application of thiamethoxam to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 55: A method of controlling representatives of the genus Cnephalocrocis comprising the application of thiamethoxam to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 56: A method of controlling Crocidolomia binotalis comprising the application of thiamethoxam to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 57: A method of controlling representatives of the genus Cydia comprising the application of thiamethoxam to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 58: A method of controlling Diparopsis castanea comprising the application of thiamethoxam to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 59: A method of controlling representatives of the genus Earias comprising the application of thiamethoxam to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 60: A method of controlling representatives of the genus Ephestia comprising the application of thiamethoxam to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 61: A method of controlling representatives of the genus Heliothis comprising the application of thiamethoxam to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 62: A method of controlling Hellula undalis comprising the application of thiamethoxam to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 63: A method of controlling Keiferia lycopersicella comprising the application of thiamethoxam to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 64: A method of controlling Leucoptera scitella comprising the application of thiamethoxam to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 65: A method of controlling representatives of the genus Lithocollethis comprising the application of thiamethoxam to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 66: A method of controlling Lobesia botrana comprising the application of thiamethoxam to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 67: A method of controlling Ostrinia nubilalis comprising the application of thiamethoxam to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 68: A method of controlling representatives of the genus Pandemis comprising the application of thiamethoxam to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 69: A method of controlling Pectinophora gossypiella comprising the application of thiamethoxam to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 70: A method of controlling Phyllocnistis citrella comprising the application of thiamethoxam to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 71: A method of controlling representatives of the genus Pieris comprising the application of thiamethoxam to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 72: A method of controlling Plutella xylostella comprising the application of thiamethoxam to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 73: A method of controlling representatives of the genus Scirpophaga comprising the application of thiamethoxam to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 74: A method of controlling representatives of the genus Sesamia comprising the application of thiamethoxam to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 75: A method of controlling representatives of the genus Sparganothis comprising the application of thiamethoxam to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 76: A method of controlling representatives of the genus Spodoptera comprising the application of thiamethoxam to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 77: A method of controlling representatives of the genus Tortrix comprising the application of thiamethoxam to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 78: A method of controlling Trichoplusia ni comprising the application of thiamethoxam to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 79: A method of controlling representatives of the genus Agriotes comprising the application of thiamethoxam to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 80: A method of controlling Anthonomus grandis comprising the application of thiamethoxam to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 81: A method of controlling representatives of the genus Curculio comprising the application of thiamethoxam to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 82: A method of controlling Diabrotica balteata comprising the application of thiamethoxam to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 83: A method of controlling representatives of the genus Leptinotarsa comprising the application of thiamethoxam to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 84: A method of controlling representatives of the genus Lissorhoptrus comprising the application of thiamethoxam to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 85: A method of controlling representatives of the genus Otiorhynchus comprising the application of thiamethoxam to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 86: A method of controlling representatives of the genus Aleurothrixus comprising the application of thiamethoxam to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 87: A method of controlling representatives of the genus Aleyrodes comprising the application of thiamethoxam to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 88: A method of controlling representatives of the genus Aonidiella comprising the application of thiamethoxam to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 89: A method of controlling representatives of the family Aphididae comprising the application of thiamethoxam to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 90: A method of controlling representatives of the genus Aphis comprising the application of thiamethoxam to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 91: A method of controlling Bemisia tabaci comprising the application of thiamethoxam to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 92: A method of controlling representatives of the genus Empoasca comprising the application of thiamethoxam to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 93: A method of controlling representatives of the genus Mycus comprising the application of thiamethoxam to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 94: A method of controlling representatives of the genus Nephotettix comprising the application of thiamethoxam to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 95: A method of controlling representatives of the genus Nilaparvata comprising the application of thiamethoxam to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 96: A method of controlling representatives of the genus Pseudococcus comprising the application of thiamethoxam to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 97: A method of controlling representatives of the genus Psylla comprising the application of thiamethoxam to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 98: A method of controlling representatives of the genus Quadraspidiotus comprising the application of thiamethoxam to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 99: A method of controlling representatives of the genus Schizaphis comprising the application of thiamethoxam to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 100: A method of controlling representatives of the genus Trialeurodes comprising the application of thiamethoxam to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 101: A method of controlling representatives of the genus Lyriomyza comprising the application of thiamethoxam to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 102: A method of controlling representatives of the genus Oscinella comprising the application of thiamethoxam to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 103: A method of controlling representatives of the genus Phorbia comprising the application of thiamethoxam to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 104: A method of controlling representatives of the genus Frankliniella comprising the application of thiamethoxam to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 105: A method of controlling representatives of the genus Thrips comprising the application of thiamethoxam to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 106: A method of controlling Scirtothrips aurantii comprising the application of thiamethoxam to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 107: A method of controlling representatives of the genus Aceria comprising the application of thiamethoxam to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 108: A method of controlling representatives of the genus Aculus comprising the application of thiamethoxam to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 109: A method of controlling representatives of the genus Brevipalpus comprising the application of thiamethoxam to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 110: A method of controlling representatives of the genus Panonychus comprising the application of thiamethoxam to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 111: A method of controlling representatives of the genus Phyllocoptruta comprising the application of thiamethoxam to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 112: A method of controlling representatives of the genus Tetranychus comprising the application of thiamethoxam to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 113: A method of controlling representatives of the genus Heterodera comprising the application of thiamethoxam to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 114: A method of controlling representatives of the genus Meloidogyne comprising the application of thiamethoxam to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 115: A method of controlling Mamestra brassica comprising the application of thiamethoxam to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 116: A method of controlling representatives of the genus Adoxophyes comprising the application of imidacloprid to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 117: A method of controlling representatives of the genus Agrotis comprising the application of imidacloprid to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 118: A method of controlling Alabama argillaceae comprising the application of imidacloprid to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 119: A method of controlling Anticarsia gemmatalis comprising the application of imidacloprid to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 120: A method of controlling representatives of the genus Chilo comprising the application of imidacloprid to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 121: A method of controlling Clysia ambiguella comprising the application of imidacloprid to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 122: A method of controlling representatives of the genus Cnephalocrocis comprising the application of imidacloprid to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 123: A method of controlling Crocidolomia binotalis comprising the application of imidacloprid to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 124: A method of controlling representatives of the genus Cydia comprising the application of imidacloprid to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 125: A method of controlling Diparopsis castanea comprising the application of imidacloprid to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 126: A method of controlling representatives of the genus Earias comprising the application of imidacloprid to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 127: A method of controlling representatives of the genus Ephestia comprising the application of imidacloprid to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 128: A method of controlling representatives of the genus Heliothis of imidacloprid to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 129: A method of controlling Hellula undalis comprising the application of imidacloprid to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 130: A method of controlling Keiferia lycopersicella comprising the application of imidacloprid to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 131: A method of controlling Leucoptera scitella comprising the application of imidacloprid to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 132: A method of controlling representatives of the genus Lithocollethis comprising the application of imidacloprid to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 133: A method of controlling Lobesia botrana comprising the application of imidacloprid to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 134: A method of controlling Ostrinia nubilalis comprising the application of imidacloprid to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 135: A method of controlling representatives of the genus Pandemis comprising the application of imidacloprid to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 136: A method of controlling Pectinophora gossypiella comprising the application of imidacloprid to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 137: A method of controlling Phyllocnistis citrella comprising the application of imidacloprid to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 138: A method of controlling representatives of the genus Pieris comprising the application of imidacloprid to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 139: A method of controlling Plutella xylostella comprising the application of imidacloprid to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 140: A method of controlling representatives of the genus Scirpophaga comprising the application of imidacloprid to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 141: A method of controlling representatives of the genus Sesamia comprising the application of imidacloprid to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 142: A method of controlling representatives of the genus Sparganothis comprising the application of imidacloprid to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 143: A method of controlling representatives of the genus Spodoptera comprising the application of imidacloprid to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 144: A method of controlling representatives of the genus Tortrix comprising the application of imidacloprid to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 145: A method of controlling Trichoplusia ni comprising the application of imidacloprid to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 146: A method of controlling representatives of the genus Agriotes comprising the application of imidacloprid to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 147: A method of controlling Anthonomus grandis comprising the application of imidacloprid to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 148: A method of controlling representatives of the genus Curculio comprising the application of imidacloprid to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 149: A method of controlling Diabrotica balteata comprising the application of imidacloprid to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 150: A method of controlling representatives of the genus Leptinotarsa comprising the application of imidacloprid to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 151: A method of controlling representatives of the genus Lissorhoptrus comprising the application of imidacloprid to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 152: A method of controlling representatives of the genus Otiorhynchus comprising the application of imidacloprid to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 153: A method of controlling representatives of the genus Aleurothrixus comprising the application of imidacloprid to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 154: A method of controlling representatives of the genus Aleyrodes comprising the application of imidacloprid to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 155: A method of controlling representatives of the genus Aonidiella comprising the application of imidacloprid to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 156: A method of controlling representatives of the family Aphididae comprising the application of imidacloprid to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 157: A method of controlling representatives of the genus Aphis comprising the application of imidacloprid to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 158: A method of controlling Bemisia tabaci comprising the application of imidacloprid to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 159: A method of controlling representatives of the genus Empoasca comprising the application of imidacloprid to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 160: A method of controlling representatives of the genus Mycus comprising the application of imidacloprid to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 161: A method of controlling representatives of the genus Nephotettix comprising the application of imidacloprid to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 162: A method of controlling representatives of the genus Nilaparvata comprising the application of imidacloprid to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 163: A method of controlling representatives of the genus Pseudococcus comprising the application of imidacloprid to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 164: A method of controlling representatives of the genus Psylla comprising the application of imidacloprid to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 165: A method of controlling representatives of the genus Quadraspidiotus comprising the application of imidacloprid to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 166: A method of controlling representatives of the genus Schizaphis comprising the application of imidacloprid to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 167: A method of controlling representatives of the genus Trialeurodes comprising the application of imidacloprid to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 168: A method of controlling representatives of the genus Lyriomyza comprising the application of imidacloprid to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 169: A method of controlling representatives of the genus Oscinella comprising the application of imidacloprid to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 170: A method of controlling representatives of the genus Phorbia comprising the application of imidacloprid to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 171: A method of controlling representatives of the genus Frankliniella comprising the application of imidacloprid to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 172: A method of controlling representatives of the genus Thrips comprising the application of imidacloprid to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 173: A method of controlling Scirtothrips aurantii comprising the application of imidacloprid to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 174: A method of controlling representatives of the genus Aceria comprising the application of imidacloprid to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 175: A method of controlling representatives of the genus Aculus comprising the application of imidacloprid to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 176: A method of controlling representatives of the genus Brevipalpus comprising the application of imidacloprid to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 177: A method of controlling representatives of the genus Panonychus comprising the application of imidacloprid to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 178: A method of controlling representatives of the genus Phyllocoptruta comprising the application of imidacloprid to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 179: A method of controlling representatives of the genus Tetranychus comprising the application of imidacloprid to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 180: A method of controlling representatives of the genus Heterodera comprising the application of imidacloprid to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 181: A method of controlling representatives of the genus Meloidogyne comprising the application of imidacloprid to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 182: A method of controlling representatives of the genus Adoxophyes comprising the application of Ti-435 to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 183: A method of controlling representatives of the genus Agrotis comprising the application of Ti-435 to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 184: A method of controlling Alabama argillaceae comprising the application of Ti-435 to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 185: A method of controlling Anticarsia gemmatalis comprising the application of Ti-435 to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 186: A method of controlling representatives of the genus Chilo comprising the application of Ti-435 to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 187: A method of controlling Clysia ambiguella comprising the application of Ti-435 to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 188: A method of controlling Crocidolomia binotalis comprising the application of Ti-435 to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 189: A method of controlling representatives of the genus Cydia comprising the application of Ti-435 to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 190: A method of controlling Diparopsis castanea comprising the application of Ti-435 to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 191: A method of controlling representatives of the genus Earias comprising the application of Ti-435 to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 192: A method of controlling representatives of the genus Ephestia comprising the application of Ti-435 to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 193: A method of controlling representatives of the genus Heliothis of Ti-435 to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 194: A method of controlling Hellula undalis comprising the application of Ti-435 to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 195: A method of controlling Keiferia lycopersicella comprising the application of Ti-435 to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 196: A method of controlling Leucoptera scitella comprising the application of Ti-435 to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 197: A method of controlling representatives of the genus Lithocollethis comprising the application of Ti-435 to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 198: A method of controlling Lobesia botrana comprising the application of Ti-435 to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 199: A method of controlling Ostrinia nubilalis comprising the application of Ti-435 to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 200: A method of controlling representatives of the genus Pandemis comprising the application of Ti-435 to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 201: A method of controlling Pectinophora gossypiella comprising the application of Ti-435 to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 202: A method of controlling Phyllocnistis citrella comprising the application of Ti-435 to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 203: A method of controlling representatives of the genus Pieris comprising the application of Ti-435 to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 204: A method of controlling Plutella xylostella comprising the application of Ti-435 to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 205: A method of controlling representatives of the genus Scirpophaga comprising the application of Ti-435 to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 206: A method of controlling representatives of the genus Sesamia comprising the application of Ti-435 to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 207: A method of controlling representatives of the genus Sparganothis comprising the application of Ti-435 to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 208: A method of controlling representatives of the genus Spodoptera comprising the application of Ti-435 to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 209: A method of controlling representatives of the genus Tortrix comprising the application of Ti-435 to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 210: A method of controlling Trichoplusia ni comprising the application of Ti-435 to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 211: A method of controlling representatives of the genus Agriotes comprising the application of Ti-435 to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 212: A method of controlling Anthonomus grandis comprising the application of Ti-435 to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 213: A method of controlling representatives of the genus Curculio comprising the application of Ti-435 to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 214: A method of controlling Diabrotica balteata comprising the application of Ti-435 to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 215: A method of controlling representatives of the genus Leptinotarsa comprising the application of Ti-435 to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 216: A method of controlling representatives of the genus Lissorhoptrus comprising the application of Ti-435 to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 217: A method of controlling representatives of the genus Otiorhynchus comprising the application of Ti-435 to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 218: A method of controlling representatives of the genus Aleurothrixus comprising the application of Ti-435 to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 219: A method of controlling representatives of the genus Aleyrodes comprising the application of Ti-435 to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 220: A method of controlling representatives of the genus Aonidiella comprising the application of Ti-435 to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 221: A method of controlling representatives of the family Aphididae comprising the application of Ti-435 to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 222: A method of controlling representatives of the genus Aphis comprising the application of Ti-435 to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 223: A method of controlling Bemisia tabaci comprising the application of Ti-435 to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 224: A method of controlling representatives of the genus Empoasca comprising the application of Ti-435 to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 225: A method of controlling representatives of the genus Mycus comprising the application of Ti-435 to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 226: A method of controlling representatives of the genus Nephotettix comprising the application of Ti-435 to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 227: A method of controlling representatives of the genus Nilaparvata comprising the application of Ti-435 to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 228: A method of controlling representatives of the genus Pseudococcus comprising the application of Ti-435 to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 229: A method of controlling representatives of the genus Psylla comprising the application of Ti-435 to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 230: A method of controlling representatives of the genus Quadraspidiotus comprising the application of Ti-435 to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 231: A method of controlling representatives of the genus Schizaphis comprising the application of Ti-435 to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 232: A method of controlling representatives of the genus Trialeurodes comprising the application of Ti-435 to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 233: A method of controlling representatives of the genus Lyriomyza comprising the application of Ti-435 to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 234: A method of controlling representatives of the genus Oscinella comprising the application of Ti-435 to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 235: A method of controlling representatives of the genus Phorbia comprising the application of Ti-435 to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 236: A method of controlling representatives of the genus Frankliniella comprising the application of Ti-435 to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 237: A method of controlling representatives of the genus Thrips comprising the application of Ti-435 to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 238: A method of controlling Scirtothrips aurantii comprising the application of Ti-435 to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 239: A method of controlling representatives of the genus Aceria comprising the application of Ti-435 to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 240: A method of controlling representatives of the genus Aculus comprising the application of Ti-435 to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 241: A method of controlling representatives of the genus Brevipalpus comprising the application of Ti-435 to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 242: A method of controlling representatives of the genus Panonychus comprising the application of Ti-435 to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 243: A method of controlling representatives of the genus Phyllocoptruta comprising the application of Ti-435 to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 244: A method of controlling representatives of the genus Tetranychus comprising the application of Ti-435 to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 245: A method of controlling representatives of the genus Heterodera comprising the application of Ti-435 to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 246: A method of controlling representatives of the genus Meloidogyne comprising the application of Ti-435 to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Table 247: A method of controlling Mamestra brassica comprising the application of Ti-435 to a herbicidally resistant transgenic crop, wherein the combination of the active principle expressed by the transgenic plant and the crop to be protected against the pest correspond to anyone of the lines C.1 to C.108 of table C.

Example B1 Action Against Anthonomus grandis adults, Spodoptera littoralis or Heliothis virescens

Young transgenic cotton plants which express the δ-endotoxin CryIIIA are sprayed with an aqueous emulsion spray mixture comprising 100, 50, 10, 5, 1 ppm of imidacloprid respectively. After the spray coating has dried on, the cotton plants are populated with 10 adult Anthonomus grandis, 10 Spodoptera littoralis larvae or 10 Heliothis virescens larvae respectively and introduced into a plastic container. Evaluation takes place 3 to 10 days later. The percentage reduction in population, or the percentage reduction in feeding damage (% action), is determined by comparing the number of dead beetles and the feeding damage on the transgenic cotton plants with that of non-transgenic cotton plants which have been treated with an emulsion spray mixture comprising imidacloprid and conventional CryIIIA-toxin at a concentration of in each case 100, 50, 10, 5, 1 ppm respectively.

In this test, the control of the tested insects in the transgenic plant is superior to the control on the non-transgenic plant.

Example B2 Action Against anthonomus grandis adults, spodoptera littoralis or heliothis virescens

Young transgenic cotton plants which express the δ-endotoxin CryIIIA are sprayed with an aqueous emulsion spray mixture comprising 100, 50, 10, 5, 1 ppm of thiamethoxam respectively. After the spray coating has dried on, the cotton plants are populated with 10 adult Anthonomus grandis, 10 Spodoptera littoralis larvae or 10 Heliothis virescens larvae respectively and introduced into a plastic container. Evaluation takes place 3 to 10 days later. The percentage reduction in population, or the percentage reduction in feeding damage (% action), is determined by comparing the number of dead beetles and the feeding damage on the transgenic cotton plants with that of non-transgenic cotton plants which have been treated with an emulsion spray mixture comprising thiamethoxam and conventional CryIIIA-toxin at a concentration of in each case 100, 50, 10, 5, 1 ppm respectively.

In this test, the control of the tested insects in the transgenic plant is superior, while it is insufficient in the non-transgenic plant.

Example B3 Action Against Anthonomus grandis adults, Spodoptera littoralis or Heliothis virescens

Young transgenic cotton plants which express the δ-endotoxin CryIIIA are sprayed with an aqueous emulsion spray mixture comprising 100, 50, 10, 5, 1 ppm of Ti-435 respectively. After the spray coating has dried on, the cotton plants are populated with 10 adult Anthonomus grandis, 10 Spodoptera littoralis larvae or 10 Heliothis virescens larvae respectively and introduced into a plastic container. Evaluation takes place 3 to 10 days later. The percentage reduction in population, or the percentage reduction in feeding damage (% action), is determined by comparing the number of dead beetles and the feeding damage on the transgenic cotton plants with that of non-transgenic cotton plants which have been treated with an emulsion spray mixture comprising Ti-435 and conventional CryIIIA-toxin at a concentration of in each case 100, 50, 10, 5, 1 ppm respectively.

In this test, the control of the tested insects in the transgenic plant is superior, while it is insufficient in the non-transgenic plant.

Example B4 Action Against Anthonomus grandis adults, Spodoptera littoralis or Heliothis virescens

Young transgenic cotton plants which express the δ-endotoxin CryIa(c) are sprayed with an aqueous emulsion spray mixture comprising 100, 50, 10, 5, 1 ppm of Ti-435 respectively. After the spray coating has dried on, the cotton plants are populated with 10 adult Anthonomus grandis, 10 Spodoptera littoralis larvae or 10 Heliothis virescens larvae respectively and introduced into a plastic container. Evaluation takes place 3 to 10 days later. The percentage reduction in population, or the percentage reduction in feeding damage (% action), is determined by comparing the number of dead beetles and the feeding damage on the transgenic cotton plants with that of non-transgenic cotton plants which have been treated with an emulsion spray mixture comprising Ti-435 and conventional CryIIIA-toxin at a concentration of in each case 100, 50, 10, 5, 1 ppm respectively.

In this test, the control of the tested insects in the transgenic plant is superior, while it is insufficient in the non-transgenic plant.

Example B5 Action Against Anthonomus grandis adults, Spodoptera littoralis or Heliothis virescens

Young transgenic cotton plants which express the δ-endotoxin CryIa(c) are sprayed with an aqueous emulsion spray mixture comprising 100, 50, 10, 5, 1 ppm of thiamethoxam respectively. After the spray coating has dried on, the cotton plants are populated with 10 adult Anthonomus grandis, 10 Spodoptera littoralis larvae or 10 Heliothis virescens larvae respectively and introduced into a plastic container. Evaluation takes place 3 to 10 days later. The percentage reduction in population, or the percentage reduction in feeding damage (% action), is determined by comparing the number of dead beetles and the feeding damage on the transgenic cotton plants with that of non-transgenic cotton plants which have been treated with an emulsion spray mixture comprising thiamethoxam and conventional CryIIIA-toxin at a concentration of in each case 100, 50, 10, 5, 1 ppm respectively.

In this test, the control of the tested insects in the transgenic plant is superior, while it is insufficient in the non-transgenic plant.

Example B6 Action Against Anthonomus grandis adults, Spodoptera littoralis or Heliothis virescens

Young transgenic cotton plants which express the δ-endotoxin CryIa(c) are sprayed with an aqueous emulsion spray mixture comprising 100, 50, 10, 5, 1 ppm of imidacloprid respectively. After the spray coating has dried on, the cotton plants are populated with 10 adult Anthonomus grandis, 10 Spodoptera littoralis larvae or 10 Heliothis virescens larvae respectively and introduced into a plastic container. Evaluation takes place 3 to 10 days later. The percentage reduction in population, or the percentage reduction in feeding damage (% action), is determined by comparing the number of dead beetles and the feeding damage on the transgenic cotton plants with that of non-transgenic cotton plants which have been treated with an emulsion spray mixture comprising imidacloprid conventional CryIIIA-toxin at a concentration of in each case 100, 50, 10, 5, 1 ppm respectively.

In this test, the control of the tested insects in the transgenic plant is superior, while it is insufficient in the non-transgenic plant.

Example B7 Action Against Ostrinia nubilalis, Spodoptera spp. or Heliothis sop.

A plot (a) planted with maize cv. KnockOut® and an adjacent plot (b) of the same size which is planted with conventional maize, both showing natural infestation with Ostrinia nubilalis, Spodoptera spp. or Heliothis, are sprayed with an aqueous emulsion spray mixture comprising 200, 100, 50, 10, 5, 1 ppm of Ti-435. Immediately afterwards, plot (b) is treated with an emulsion spray mixture comprising 200, 100, 50, 10, 5, 1 ppm of the endotoxin expressed by KnockOut®. Evaluation takes place 6 days later. The percentage reduction in population (% action) is determined by comparing the number of dead pests on the plants of plot (a) with that on the plants of plot (b).

Improved control of Ostrinia nubilalis, Spodoptera spp. or Heliothis is observed on the plants of plot (a), while plot (b) shows a control level of not over 60%.

Example B8 Action Against Ostrinia nubilalis, Spodoptera spp. or Heliothis spp.

A plot (a) planted with maize cv. KnockOut® and an adjacent plot (b) of the same size which is planted with conventional maize, both showing natural infestation with Ostrinia nubilalis, Spodoptera spp. or Heliothis, are sprayed with an aqueous emulsion spray mixture comprising 200, 100, 50, 10, 5, 1 ppm of thiamethoxam. Immediately afterwards, plot (b) is treated with an emulsion spray mixture comprising 200, 100, 50, 10, 5, 1 ppm of the endotoxin expressed by KnockOut®. Evaluation takes place 6 days later. The percentage reduction in population (% action) is determined by comparing the number of dead pests on the plants of plot (a) with that on the plants of plot (b).

Improved control of Ostrinia nubilalis, Spodoptera spp. or Heliothis is observed on the plants of plot (a), while plot (b) shows a control level of not over 60%.

Example B9 Action Against Ostrinia nubilalis, Spodoptera spp. or Heliothis spp.

A plot (a) planted with maize cv. KnockOut® and an adjacent plot (b) of the same size which is planted with conventional maize, both showing natural infestation with Ostrinia nubilalis, Spodoptera spp. or Heliothis, are sprayed with an aqueous emulsion spray mixture comprising 200, 100, 50, 10, 5, 1 ppm of imidacloprid. Immediately afterwards, plot (b) is treated with an emulsion spray mixture comprising 200, 100, 50, 10, 5, 1 ppm of the endotoxin expressed by KnockOut®. Evaluation takes place 6 days later. The percentage reduction in population (% action) is determined by comparing the number of dead pests on the plants of plot (a) with that on the plants of plot (b).

Improved control of Ostrinia nubilalis, Spodoptera spp. or Heliothis spp. is observed on the plants of plot (a), while plot (b) shows a control level of not over 60%.

Example B10 Action Against Diabrotica balteata

A plot (a) planted with maize seedlings cv. KnockOut® and an adjacent plot (b) of the same size which is planted with conventional maize are sprayed with an aqueous emulsion of a spray mixture comprising 400 ppm thiamethoxam. Immediately afterwards, plot (b) is treated with an emulsion spray mixture comprising 400 ppm of the endotoxin expressed by KnockOut®. After the spray coating has dried on, the seedlings are populated with 10 Diabrotica balteata larvae in the second stage and transferred to a plastic container. The test is evaluated 6 days later. The percentage reduction in population (% action) is determined by comparing the number of dead pests on the plants of plot (a) with that on the plants of plot (b).

Improved control of Diabrotica balteata is observed on the plants of plot (a), while plot (b) shows a control level of not over 60%.

Example B11 Action Against Aphis gossypii

Cotton seedlings on a plot (a) expressing the δ-endotoxin CryIIIa on a plot (a) and conventional cotton seedlings on a plot (b) are infected with Aphis gossypi and subsequently sprayed with a spray mixture comprising 400 ppm thiamethoxam. Immediately afterwards, plot (b) is treated with an emulsion spray mixture comprising 400 ppm of the δ-endotoxin CryIIIa. The seedlings of plot (a) and (b) are then incubated at 20° C. The test is evaluated after 3 and 6 days.

The percentage reduction in population (% action) is determined by comparing the number of dead pests on the plants of plot (a) with that on the plants of plot (b). Improved control of Aphis gossypi is observed on the plants of plot (a), while plot (b) shows a control level of not over 60%.

Example B12 Action Against Frankliniella occidentalis

Cotton seedlings expressing the δ-endotoxin CryIIIa on a plot (a) and conventional cotton seedlings on a plot (b) are infected with Frankliniella occidentalis and subsequently sprayed with a spray mixture comprising 400 ppm thiamethoxam. Immediately-afterwards, plot (b) is treated with an emulsion spray mixture comprising 400 ppm of the δ-endotoxin CryIIIa. The seedlings of plot (a) and (b) are then incubated at 20° C. The test is evaluated after 3 and 6 days.

The percentage reduction in population (% action) is determined by comparing the number of dead pests on the plants of plot (a) with that on the plants of plot (b). Improved control of Frankliniella occidentalis is observed on the plants of plot (a), while plot (b) shows a control level of not over 60%.

Example B13 Action Against Aphis gossypii

Cotton seedlings expressing the δ-endotoxin CryIA(c) on a plot (a) and conventional cotton seedlings on a plot (b) are infected with Aphis gossypii and subsequently sprayed with a spray mixture comprising 400 ppm thiamethoxam. Immediately afterwards, plot (b) is treated with an emulsion spray mixture comprising 400 ppm of the δ-endotoxin CryIIIa. The seedlings of plot (a) and (b) are then incubated at 20° C. The test is evaluated after 3 and 6 days.

The percentage reduction in population (% action) is determined by comparing the number of dead pests on the plants of plot (a) with that on the plants of plot (b). Improved control of Aphis gossypii is observed on the plants of plot (a), while plot (b) shows a control level of not over 60%.

Example B14 Action Against Frankliniella occidentalis

Cotton seedlings expressing the δ-endotoxin CryIa(c) on a plot (a) and conventional cotton seedlings on a plot (b) are infected with Frankliniella occidentalis and subsequently sprayed with a spray mixture comprising 400 ppm thiamethoxam. Immediately afterwards, plot (b) is treated with an emulsion spray mixture comprising 400 ppm of the δ-endotoxin CryIa(c). The seedlings of plot (a) and (b) are then incubated at 20° C. The test is evaluated after 3 and 6 days.

The percentage reduction in population (% action) is determined by comparing the number of dead pests on the plants of plot (a) with that on the plants of plot (b). Improved control of Frankliniella occidentalis is observed on the plants of plot (a), while plot (b) shows a control level of not over 60%.

Example B15 Action Against Nephotettix cincticeps

Rice plants on a plot (a) expressing the δ-endotoxin CryIA(b) and conventional rice plants on a plot (b) are sprayed with a spray mixture comprising 400 ppm thiamethoxam. Immediately afterwards, plot (b) is treated with an emulsion spray mixture comprising 400 ppm of the δ-endotoxin CryIA(b). After the spray coating has dried on, the plants are infected with Nephotettix cincticeps of the 2nd and 3rd stages. The seedlings of plot (a) and (b) are then incubated at 20° C. The test is evaluated after 21 days.

The percentage reduction in population (% action) is determined by comparing the number of dead pests on the plants of plot (a) with that on the plants of plot (b). Improved control of Nephotettix cincticeps is observed on the plants of plot (a), while plot (b) shows a control level of not over 60%.

Example B16 Action Against Nephotettix cincticeps (systemic)

Rice plants expressing the 6-endotoxin CryIa(b) are planted in a in pot (A) and conventional ice plants are planted in a pot (B). Pot (A) is placed in an aqueous emulsion containing 400 ppm thiamethoxam, whereas plot (B) is placed in a pot containing 400 ppm thiamethoxam and 400 ppm of the 6-endotoxin CryI(b). The plants are subsequently infected with Nephotettix cincticeps larvae of the second and third stage. The test is evaluated after 6 days.

The percentage reduction in population (% action) is determined by comparing the number of dead pests on the plants of pot (A) with that on the plants of pot (B). Improved control of Nephotettix cincticeps is observed on the plants of pot (A), while pot (B) shows a control level of not over 60%.

Example B17 Action Against Nilaparvata lugens

Rice plants on a plot (a) expressing the 6-endotoxin CryIA(b) and conventional rice plants on a plot (b) are infected with Nilaparvata lugens, subsequently sprayed with a spray mixture comprising 400 ppm thiamethoxam. Immediately afterwards, plot (b) is treated with an emulsion spray mixture comprising 400 ppm of the 6-endotoxin CryIA(b). The seedlings of plot (a) and (b) are then incubated at 20° C. The test is evaluated after 21 days.

The percentage reduction in population (% action) is determined by comparing the number of dead pests on the plants of plot (a) with that on the plants of plot (b). Improved control of Nilaparvata lugens is observed on the plants of plot (a), while plot (b) shows a control level of not over 60%.

Example B18 Action Against Nilaparvata lugens (Systemic)

Rice plants expressing the 6-endotoxin CryIA(b) are planted in a in pot (A) and conventional rice plants are planted in a pot (B). Pot (A) is placed in an aqueous emulsion containing 400 ppm thiamethoxam, whereas plot (B) is place in a pot copntaining 400 ppm thiamethoxam and 400 ppm of the 6-endotoxin CryIA(b). The plants are subsequently infected with Nilaparvata lugens larvae of the second and third stage. The test is evaluated after 6 days.

The percentage reduction in population (% action) is determined by comparing the number of dead pests on the plants of pot (A) with that on the plants of pot (B). Improved control of Nephotettix cincticeps is observed on the plants of pot (A), while pot (B) shows a control level of not over 60%.

Example B19 Action Against Nephotettix cincticeps

Rice plants on a plot (a) expressing the 6-endotoxin CryIA(c) and conventional rice plants on a plot (b) are sprayed with a spray mixture comprising 400 ppm thiamethoxam. Immediately afterwards, plot (b) is treated with an emulsion spray mixture comprising 400 ppm of the δ-endotoxin CryIA(c). After the spray coating has dried on, the plants are infected with Nephotettix cincticeps of the 2nd and 3rd stages. The seedlings of plot (a) and (b) are then incubated at 20° C. The test is evaluated after 21 days.

The percentage reduction in population (% action) is determined by comparing the number of dead pests on the plants of plot (a) with that on the plants of plot (b). Improved control of Nephotettix cincticeps is observed on the plants of plot (a), while plot (b) shows a control level of not over 60%.

Example B20 Action Against Nephotettix cincticeps (Systemic)

Rice plants expressing the 6-endotoxin CryIa(c) are planted in a in pot (A) and conventional ice plants are planted in a pot (B). Pot (A) is placed in an aqueous emulsion containing 400 ppm thiamethoxam, whereas plot (B) is placed in a pot containing 400 ppm thiamethoxam and 400 ppm of the 6-endotoxin CryI(c). The plants are subsequently infected with Nephotettix cincticeps larvae of the second and third stage. The test is evaluated after 6 days.

The percentage reduction in population (% action) is determined by comparing the number of dead pests on the plants of pot (A) with that on the plants of pot (B). Improved control of Nephotettix cincticeps is observed on the plants of pot (A), while pot (B) shows a control level of not over 60%.

Example B21 Action Against Nilaparvata lugens

Rice plants on a plot (a) expressing the 6-endotoxin CryIA(c) and conventional rice plants on a plot (b) are infected with Nilaparvata lugens, subsequently sprayed with a spray mixture comprising 400 ppm thiamethoxam. Immediately afterwards, plot (b) is treated with an emulsion spray mixture comprising 400 ppm of the 6-endotoxin CryIA(c). The seedlings of plot (a) and (b) are then incubated at 20° C. The test is evaluated after 21 days.

The percentage reduction in population (% action) is determined by comparing the number of dead pests on the plants of plot (a) with that on the plants of plot (b). Improved control of Nilaparvata lugens is observed on the plants of plot (a), while plot (b) shows a control level of not over 0%.

Example B22 Action Against Nilaparvata lugens (Systemic)

Rice plants expressing the δ-endotoxin CryIA(c) are planted in a in pot (A) and conventional rice plants are planted in a pot (B). Pot (A) is placed in an aqueous emulsion containing 400 ppm thiamethoxam, whereas plot (B) is place in a pot copntaining 400 ppm thiamethoxam and 400 ppm of the 6-endotoxin CryIA(c). The plants are subsequently infected with Nilaparvata lugens larvae of the second and third stage. The test is evaluated after 6 days.

The percentage reduction in population (% action) is determined by comparing the number of dead pests on the plants of pot (A) with that on the plants of pot (B). Improved control of Nephotettix cincticeps is observed on the plants of pot (A), while pot (B) shows a control level of not over 60%. 

1. A method of controlling pests in crops of transgenic useful plants comprising the application of a composition comprising clothioanidin, in free form or in agrochemically useful salt form as active ingredient and at least one auxiliary to the pests, or the transgenic plant or propagation material thereof.
 2. The method of claim 1 where the transgenic useful plant contains one or more genes which encode insecticidal resistance and express one or more active toxins.
 3. The method of claim 2 wherein the active toxin expressed by the transgenic plant is selected from Bacillus cereus proteins, Bacillus poplia proteins, Bacillus thuringiensis endotoxins (B.t.), insecticidal proteins of bateria colonising nematodes, proteinase inhibitors, ribosome inactivating proteins, plant lectins, animal toxins, and steroid metabolism enzymes.
 4. The method of claim 2 wherein the active toxin expressed by the transgenic plant is selected from CryIA(a), CryIA(b), CryIA(c), Cry IIA, CryIIIA, CryIIIB2, CytA, VIP3, GL, PL, XN, Plnh., Plec., Aggl., CO, CH, SS, and HO.
 5. The method of claim 1 where the crops of transgenic useful plants are selected from cotton, rice, potatoes, brassica, tomatoes, cucurbits, soybeans, maize, wheat, bananas, citrus trees, pome fruit trees and peppers.
 6. The method of claim 1 wherein the composition is applied to the transgenic useful plant.
 7. The method of claim 1 wherein clothioanidin is applied to the propagation material of the transgenic useful plant.
 8. The method of claim 7 wherein the propagation material is seed. 